|
RO NUMBER |
PROGRAM |
RO TITLE |
CITY |
STATE |
|
|
26.03.68.B7479 |
NOAA |
Sablefish Abundance Index Modeling |
Juneau |
AK |
|
26.03.68.B7775 |
NOAA |
Marine Habitat Suitability Modeling |
Juneau |
AK |
|
26.03.68.C0437 |
NOAA |
Developing Ecosystem Indices to Inform Fisheries Stock Assessments |
Juneau |
AK |
|
26.03.69.C0279 |
NOAA |
King Crab Aquaculture, Stock Enhancement, and Ecology |
Kodiak |
AK |
|
34.01.01.B8008 |
NAWCWD |
Super-hydrophobic Composite Resins |
China Lake |
CA |
|
34.01.01.B8011 |
NAWCWD |
High Performance Renewable Fuels |
China Lake |
CA |
|
34.01.01.B8012 |
NAWCWD |
Renewable Polymers and Composites |
China Lake |
CA |
|
34.01.01.B8013 |
NAWCWD |
Synthesis of Low-Valent Metal Clusters |
China Lake |
CA |
|
34.01.01.C0148 |
NAWCWD |
High Density Energetic Materials |
China Lake |
CA |
|
34.01.01.C0366 |
NAWCWD |
Reaction Acceleration of Energetic Materials via Mass Spectrometry Ion Sources |
China Lake |
CA |
|
34.01.01.C0695 |
NAWCWD |
Ambient Ionization Mass Spectrometry for Synthetic Purposes |
China Lake |
CA |
|
13.30.12.B5781 |
AF STFP |
Experimental Mechanics and Solid Rocket Propellants |
Edwards Air Force Base |
CA |
|
13.30.12.B7618 |
AF STFP |
Computational Physics of Nonequilibrium Plasma for Space Propulsion |
Edwards Air Force Base |
CA |
|
13.30.12.B7679 |
AF STFP |
Combustion and Ignition Chemistry of Energetic Propellants |
Edwards Air Force Base |
CA |
|
13.30.12.B8566 |
AF STFP |
Detonation Physics |
Edwards Air Force Base |
CA |
|
13.30.12.C0211 |
AF STFP |
Cohesive Zone Modeling and Interfacial Failures in Solid Rocket Motors |
Edwards Air Force Base |
CA |
|
13.30.12.C0254 |
AF STFP |
Propellant Ignition Modeling in Solid Rocket Motors |
Edwards Air Force Base |
CA |
|
13.30.12.C0281 |
AF STFP |
Synthesis of Ionic Liquids for Aerospace Applications |
Edwards Air Force Base |
CA |
|
13.30.12.C0443 |
AF STFP |
Model Reduction and Machine Learning Methods for Rocket Propulsion Analysis |
Edwards Air Force Base |
CA |
|
13.30.12.C0640 |
AF STFP |
High Pressure Combustion Dynamics in Rocket Propulsion |
Edwards Air Force Base |
CA |
|
13.30.12.C0686 |
AF STFP |
Experimental Low-temperature Plasma Physics and Data-Driven Modeling for Space Propulsion |
Edwards Air Force Base |
CA |
|
13.30.12.C0858 |
AF STFP |
Novel computational modeling of spontaneous failure modes in reactive, heterogeneous materials |
Edwards Air Force Base |
CA |
|
26.03.37.B0500 |
NOAA |
Marine Mammal and Marine Turtle Population Biology |
La Jolla |
CA |
|
26.03.37.C0894 |
NOAA |
Developing multi-species marine mammal genomic tools for management applications |
La Jolla |
CA |
|
26.03.02.B0456 |
NOAA |
Climate and Ecosystem Variability in Eastern Boundary Current Systems |
Monterey |
CA |
|
26.03.02.B0457 |
NOAA |
Fisheries Oceanography and Marine Habitat Classification |
Monterey |
CA |
|
26.03.02.B5059 |
NOAA |
Climate Change and Ecosystem Fluctuations |
Monterey |
CA |
|
62.10.02.B2632 |
NPS |
Ocean Analysis and Prediction |
Monterey |
CA |
|
62.10.02.B6621 |
NPS |
Theoretical/Computational/Observational Research in Dynamic Meteorology, Geophysical Fluid Dynamics, Hurricanes, and Tornadoes |
Monterey |
CA |
|
62.10.02.B7054 |
NPS |
Computational Methods for Geophysical Fluid Dynamics |
Monterey |
CA |
|
62.10.02.B7070 |
NPS |
Ocean Dynamics and Modeling |
Monterey |
CA |
|
62.10.02.B7181 |
NPS |
Arctic Climate Change and Prediction |
Monterey |
CA |
|
62.10.02.B7335 |
NPS |
Surfzone and Riverine Processes |
Monterey |
CA |
|
62.10.02.C0867 |
NPS |
Ocean Wave Impacts on Air-Sea Interaction |
Monterey |
CA |
|
62.10.03.B2612 |
NPS |
Computer-Aided Software Design and Synthesis |
Monterey |
CA |
|
62.10.03.B4011 |
NPS |
The Design and Analysis of Integrated Guidance, Navigation, and Control Systems for Unmanned Air Vehicles |
Monterey |
CA |
|
62.10.03.B4383 |
NPS |
Cyber and Cyber-Physical Systems |
Monterey |
CA |
|
62.10.03.B5419 |
NPS |
Machine Learning of Clues to New Cyberattacks from Honeypots and other Forensic Data |
Monterey |
CA |
|
62.10.03.B6622 |
NPS |
Astrodynamics, Guidance and Control of Orbiting Space Robotic Systems: Analysis, Numerical Simulations, Experimentation |
Monterey |
CA |
|
62.10.03.B6844 |
NPS |
Fatigue and Cognitive Performance |
Monterey |
CA |
|
62.10.03.B6995 |
NPS |
High-Fidelity Modeling and Control Algorithms Engineering for Unmanned Systems |
Monterey |
CA |
|
62.10.03.B7337 |
NPS |
Virtual Training Simulations in Support of Ground Troops Training (Urban Warfare Operations) |
Monterey |
CA |
|
62.10.03.B7338 |
NPS |
3D Display and Capture of Humans for Live-Virtual Training |
Monterey |
CA |
|
62.10.03.B8361 |
NPS |
Intelligent Autonomy of Cooperative Unmanned Vehicles in Resource Constrained Applications |
Monterey |
CA |
|
62.10.03.C0019 |
NPS |
Design and Test of Energy Generation, Storage and Transport Systems |
Monterey |
CA |
|
62.10.03.C0119 |
NPS |
Advanced Sensors Based on Atom Interferometers |
Monterey |
CA |
|
62.10.03.C0243 |
NPS |
Design and Characterization of Novel Metamaterials |
Monterey |
CA |
|
62.10.03.C0270 |
NPS |
Simulating Robotics in the Maritime Environment |
Monterey |
CA |
|
62.10.03.C0433 |
NPS |
Design, Develop and Test of High-Power Power Electronics |
Monterey |
CA |
|
62.10.03.C0434 |
NPS |
Modeling, Control, and Prototyping of Power Electronics |
Monterey |
CA |
|
62.10.03.C0569 |
NPS |
Cryptography and Applications |
Monterey |
CA |
|
62.10.03.C0655 |
NPS |
Acoustics, Value-added Localization with Noise |
Monterey |
CA |
|
62.10.03.C0714 |
NPS |
Designing Cyberdeceptions for Defending Industrial Control Systems from Cyberattacks |
Monterey |
CA |
|
62.10.03.C0919 |
NPS |
Development of Non-Intrusive Load Monitoring Methodologies and Machine Learning Tools to Identify Cyber Anomalies in Naval Power Systems |
Monterey |
CA |
|
62.10.03.C0955 |
NPS |
Digital Model-Based Engineering of Naval Systems and Their Missions |
Monterey |
CA |
|
62.10.06.B2630 |
NPS |
Aerospace Guidance, Control, and Optimization |
Monterey |
CA |
|
62.10.06.B6710 |
NPS |
Artificial Intelligence, Fine Pointing, and Adaptive Optics, |
Monterey |
CA |
|
62.10.06.C0814 |
NPS |
Advanced Computational Optimal Control Theory |
Monterey |
CA |
|
62.10.07.C0435 |
NPS |
Infrasound and Acoustic-Gravity Waves in the Atmosphere: From Ocean and Land to Space |
Monterey |
CA |
|
64.16.66.B3062 |
NRL |
Atmospheric Processes |
Monterey |
CA |
|
64.16.66.B3063 |
NRL |
Data Assimilation |
Monterey |
CA |
|
64.16.66.B3068 |
NRL |
Meteorological Mesoscale Modeling |
Monterey |
CA |
|
64.16.66.B3069 |
NRL |
Characterization, Analysis, and Prediction of Atmospheric Aerosols |
Monterey |
CA |
|
64.16.66.B4884 |
NRL |
Atmospheric Predictability Studies |
Monterey |
CA |
|
64.16.66.B4885 |
NRL |
Targeted Observing for Improved Forecasts of High-Impact Weather Events |
Monterey |
CA |
|
64.16.66.B6128 |
NRL |
Computational Geophysical Fluid Dynamics |
Monterey |
CA |
|
64.16.66.B6304 |
NRL |
Mesoscale Ensembles |
Monterey |
CA |
|
64.16.66.B8423 |
NRL |
Electro-Magnetic Radiation Scatter and Refraction in the Troposphere |
Monterey |
CA |
|
64.16.66.B8541 |
NRL |
Tropical Air-Ocean-Wave-Land-Hydrology Interaction Research and Modeling |
Monterey |
CA |
|
64.16.66.B8579 |
NRL |
Machine Learning Weather Prediction |
Monterey |
CA |
|
64.16.66.C0250 |
NRL |
Global Earth System Modeling |
Monterey |
CA |
|
64.16.66.C0842 |
NRL |
Leveraging Smallsats to Improve Atmospheric Prediction |
Monterey |
CA |
|
64.16.66.C0993 |
NRL |
Detection, Monitoring, and Prediction of Pyroconvection |
Monterey |
CA |
|
26.03.50.B0456 |
NOAA |
Climate and Ecosystem Variability in Eastern Boundary Current Systems |
Santa Cruz |
CA |
|
26.05.01.B0566 |
NOAA |
Modeling of Atmospheric Trace Gas Sources and Sinks Using Observed Mixing Ratios |
Boulder |
CO |
|
26.05.01.B0568 |
NOAA |
Measurements of Halocarbons for Studying Global Atmospheric Processes and the Effectiveness of International Environmental Policy |
Boulder |
CO |
|
26.05.02.B0550 |
NOAA |
Analytical Studies of the Tropical Atmosphere and its Relationship to Global Climate |
Boulder |
CO |
|
26.05.02.B0590 |
NOAA |
Air-Sea Interaction and Boundary Layer Processes in Turbulent Environments |
Boulder |
CO |
|
26.05.02.C0252 |
NOAA |
Predictability and Prediction of Drought on Subseasonal-to-Seasonal Time Scales |
Boulder |
CO |
|
26.05.02.C0537 |
NOAA |
Hydrometeorology and Water Resource Management Research |
Boulder |
CO |
|
26.05.02.C0841 |
NOAA |
Data assimilation for coupled Earth system prediction |
Boulder |
CO |
|
26.05.02.C0974 |
NOAA |
Empirical dynamical modeling for studies of seasonal-to-interannual prediction and predictability |
Boulder |
CO |
|
26.05.03.B4930 |
NOAA |
Atmospheric Chemistry |
Boulder |
CO |
|
26.05.03.B4931 |
NOAA |
Chemical and Physical Characterization of Tropospheric Aerosols |
Boulder |
CO |
|
26.05.03.B4932 |
NOAA |
Aerosol-Cloud-Radiation Interactions: Modeling and Observations |
Boulder |
CO |
|
26.05.03.B5809 |
NOAA |
Aerosol Chemistry and Climate Connections |
Boulder |
CO |
|
26.05.03.B6605 |
NOAA |
Atmospheric Trace Gases and Aerosols: New Measurement Techniques, Field Studies and Laboratory Measurements |
Boulder |
CO |
|
26.05.03.B6608 |
NOAA |
Chemistry, Radiation and Dynamics of the Upper Troposphere/Lower Stratosphere |
Boulder |
CO |
|
26.05.03.B6616 |
NOAA |
Air Quality Modeling |
Boulder |
CO |
|
26.05.04.B8073 |
NOAA |
Predictability of Weather and Climate |
Boulder |
CO |
|
26.05.04.C0671 |
NOAA |
Convection-permitting to convection-resolving data assimilation and numerical weather prediction. |
Boulder |
CO |
|
26.07.45.B5042 |
NOAA |
Solar and Coronal Event Phenomena |
Boulder |
CO |
|
50.64.72.B5221 |
NIST |
Thermodynamics of Gas Mixtures for Industry and Environment |
Boulder |
CO |
|
50.64.72.B5930 |
NIST |
Increasing the Structural Reliability of our Infrastructure |
Boulder |
CO |
|
50.64.72.B6752 |
NIST |
Biofuels: Enabling the Transition by Advancing Thermophysics |
Boulder |
CO |
|
50.64.72.B6774 |
NIST |
Developing new techniques for studying the underlying mechanisms of hydrogen embrittlement |
Boulder |
CO |
|
50.64.72.B7092 |
NIST |
Fatigue and Fracture of Metallic Materials Processed via Additive Manufacturing |
Boulder |
CO |
|
50.64.72.B7228 |
NIST |
Vapor Detection in Forensic Chemical Analysis |
Boulder |
CO |
|
50.64.72.B7247 |
NIST |
Reliability of Implanted Cardiac Devices |
Boulder |
CO |
|
50.64.72.B7374 |
NIST |
Analysis and Modeling of Structural Behavior of Materials |
Boulder |
CO |
|
50.64.72.B7544 |
NIST |
High Field NMR for Renewable Fuel Characterization |
Boulder |
CO |
|
50.64.72.B7545 |
NIST |
Thermal Stability of Liquid Fuels: Fundamental Studies of Kinetics |
Boulder |
CO |
|
50.64.72.B7546 |
NIST |
The Strange Phenomena of Odor Masking |
Boulder |
CO |
|
50.64.72.B7549 |
NIST |
Machine Learning Methods for the Prediction and Correlation of Thermophysical Properties |
Boulder |
CO |
|
50.64.72.B7554 |
NIST |
Theory and Modeling for CO2 and its Mixtures in Energy Systems |
Boulder |
CO |
|
50.64.72.B7744 |
NIST |
High-Temperature Piezoelectric Materials for Resonant Acoustic Sensors |
Boulder |
CO |
|
50.64.72.B7990 |
NIST |
Data-Driven Technologies for Fluid Property Simulation |
Boulder |
CO |
|
50.64.72.B7999 |
NIST |
Computational Modeling of Fracture and Fatigue in Hydrogen Environments |
Boulder |
CO |
|
50.64.72.B8091 |
NIST |
Scanning Probe Microscopy of Advanced Materials for Energy and Manufacturing |
Boulder |
CO |
|
50.64.72.B8138 |
NIST |
Data-driven Model Development for Property Prediction in Alloys and Composites |
Boulder |
CO |
|
50.64.72.B8153 |
NIST |
Microbial nanomotion and life – Insight and control through noise measurements |
Boulder |
CO |
|
50.64.72.B8158 |
NIST |
Chemical Foundation for Capture and Release of Difficult to Detect Drugs or Drug Metabolites of Abuse |
Boulder |
CO |
|
50.64.72.B8160 |
NIST |
Causal Green’s Function for Modeling of Phonon Transport in Nanoscale Semiconductors: Application to Devices for Thermal Management and Energy Applications |
Boulder |
CO |
|
50.64.72.B8257 |
NIST |
Advanced Materials and Methods for Quantitative Nuclear Magnetic Resonance Spectroscopy: Standardization for the Second Century of Analytical NMR |
Boulder |
CO |
|
50.64.72.B8320 |
NIST |
Theory and Simulation of Nanoscale Systems and Devices |
Boulder |
CO |
|
50.64.72.B8349 |
NIST |
Atomistic Modeling of Strains and Electronic Distortions in Materials for Quantum Computers |
Boulder |
CO |
|
50.64.72.B8489 |
NIST |
Transmission Scanning Electron Microscopy for Materials Characterization |
Boulder |
CO |
|
50.64.72.B8499 |
NIST |
Experimental and Theoretical Studies of Fundamental Fluid Behavior |
Boulder |
CO |
|
50.64.72.B8514 |
NIST |
Ultrafast Extreme Ultraviolet Mass Spectroscopy at High Field |
Boulder |
CO |
|
50.64.72.C0013 |
NIST |
Measurements and Theory for Thermal Transport Properties of Fluid Mixtures |
Boulder |
CO |
|
50.64.72.C0160 |
NIST |
Nondestructive Evaluation of Additively Manufactured Alloys |
Boulder |
CO |
|
50.64.72.C0163 |
NIST |
High-Accuracy Measurements on Complex Mixtures with NMR Spectroscopy: Applications to Refrigeration, Forensic Science, Hydrogen Storage and Carbon Capture |
Boulder |
CO |
|
50.64.72.C0164 |
NIST |
Activation and Deactivation of Cannabinoid Receptors by Nuclear Magnetic Resonance (NMR) Spectroscopy Screening |
Boulder |
CO |
|
50.64.72.C0214 |
NIST |
Applications of Real-Time Portable Mass Spectrometry in Forensic Science |
Boulder |
CO |
|
50.64.72.C0234 |
NIST |
Sampling and Characterization of Breath Metabolic Products Associated with Cannabis Use |
Boulder |
CO |
|
50.64.72.C0266 |
NIST |
Nanometer-Scale Characterization and Reliability of 2D Materials |
Boulder |
CO |
|
50.64.72.C0363 |
NIST |
Development of Viscosity Prediction Methods Based on Molecular Parameters and Intermolecular Interaction for Organic Compounds |
Boulder |
CO |
|
50.64.72.C0393 |
NIST |
Methods to Evaluate Partition Coefficients of Biologically Active Molecules |
Boulder |
CO |
|
50.64.72.C0403 |
NIST |
Molecular Modeling of Fluid Thermophysical Properties |
Boulder |
CO |
|
50.64.72.C0424 |
NIST |
Supercritical Fluid Thermodynamics-Yang-Yang Critical Anomaly |
Boulder |
CO |
|
50.64.72.C0442 |
NIST |
Computational Investigations of Molecular Interface Formation from the Perspective of Cosolvent Preferential Interactions |
Boulder |
CO |
|
50.64.72.C0444 |
NIST |
Computational investigations of proton transfer between ionizable moieties in heterogeneous molecular environments |
Boulder |
CO |
|
50.64.72.C0453 |
NIST |
Exploring the molecular details of the ERK2 enzyme |
Boulder |
CO |
|
50.64.72.C0461 |
NIST |
Application of Artificial Intelligence Techniques for Acquisition and Analysis of Thermophysical and Thermodynamic Property Information |
Boulder |
CO |
|
50.64.72.C0472 |
NIST |
Bias-induced Strain Mapping of Electronic and Energy Materials in an Atomic Force Microscope |
Boulder |
CO |
|
50.64.72.C0499 |
NIST |
Measurement of High-Accuracy Vapor-Liquid Equilibrium Data with NMR Spectroscopy |
Boulder |
CO |
|
50.64.72.C0500 |
NIST |
Exploring the effect of hydrogen environment on the mechanical properties of structural metals |
Boulder |
CO |
|
50.64.72.C0501 |
NIST |
Developing New Techniques for Studying the Underlying Mechanisms of Hydrogen Embrittlement |
Boulder |
CO |
|
50.64.72.C0517 |
NIST |
Electric-Acoustic Spectrometer Fabrication and Validation with Existing Spectroscopic Techniques |
Boulder |
CO |
|
50.64.72.C0527 |
NIST |
High-pressure Nuclear Magnetic Resonance (NMR) Spectroscopy of Intermolecular Interactions |
Boulder |
CO |
|
50.64.72.C0538 |
NIST |
Experimental Thermodynamic Properties of Fluids |
Boulder |
CO |
|
50.64.72.C0580 |
NIST |
Photopolymer Additive Manufacturing for Critical Applications |
Boulder |
CO |
|
50.64.72.C0594 |
NIST |
Molecular Design Foundry: Enabling Separation Processes |
Boulder |
CO |
|
50.64.72.C0673 |
NIST |
Flexible Electronics Reliability |
Boulder |
CO |
|
50.64.72.C0677 |
NIST |
Reliability of Electronic Materials |
Boulder |
CO |
|
50.64.72.C0694 |
NIST |
Sub-nanometer pores in two-dimensional materials for nanofluidics, sensing and energy applications |
Boulder |
CO |
|
50.64.72.C0767 |
NIST |
CO2 Corrosion – Measurements for 21st Century Energy Infrastructure |
Boulder |
CO |
|
50.64.72.C0787 |
NIST |
Computational Fluid Dynamics Applied to Measurement Studies |
Boulder |
CO |
|
50.64.72.C0874 |
NIST |
CHIPPING away towards accurate properties of semiconductor process gases. |
Boulder |
CO |
|
50.64.72.C0888 |
NIST |
Enhancing the capabilities and applicability of ion-association thermodynamic models for aqueous electrolytes. |
Boulder |
CO |
|
50.64.72.C0972 |
NIST |
Digital Twin of Breath Devices for Forensics and Health Metrology |
Boulder |
CO |
|
50.64.72.C0976 |
NIST |
Efficient integration of sustainable fuels through the measurement and modeling of thermophysical properties |
Boulder |
CO |
|
50.67.22.B5521 |
NIST |
Waveform Metrology |
Boulder |
CO |
|
50.67.22.B6230 |
NIST |
Broadband Electromagnetic Characterization of Thin-Film Electronic Materials and Devices |
Boulder |
CO |
|
50.67.22.B7594 |
NIST |
Microwave Microfluidics |
Boulder |
CO |
|
50.67.22.B8148 |
NIST |
SFQ Synthesizer |
Boulder |
CO |
|
50.67.22.B8279 |
NIST |
On-Chip Metrology for the mm-Wave Revolution |
Boulder |
CO |
|
50.67.22.B8281 |
NIST |
Advanced Microwave Microfluidics for Real-time Diagnostics and Chemical Analysis |
Boulder |
CO |
|
50.67.22.B8282 |
NIST |
5G Advanced Microwave Materials for Millimeter-wave Devices |
Boulder |
CO |
|
50.67.22.B8283 |
NIST |
Calnet.nist.gov |
Boulder |
CO |
|
50.67.22.B8435 |
NIST |
High-Throughput Microwave Microfluidics for Diagnostics of Complex Fluids |
Boulder |
CO |
|
50.67.22.B8436 |
NIST |
Microwave Materials for High-Speed Microelectronics |
Boulder |
CO |
|
50.67.22.B8440 |
NIST |
On-chip Microwave Power Standards Based on the Optical Frequency Comb |
Boulder |
CO |
|
50.67.22.B8441 |
NIST |
Metrology for Quasi-Optical Wireless Probing of Monolithic Microwave Integrated Circuits |
Boulder |
CO |
|
50.67.22.C0091 |
NIST |
Ultrafast Photodetectors |
Boulder |
CO |
|
50.67.22.C0253 |
NIST |
Chip-Scale Interconnects for 5G Communications Technology |
Boulder |
CO |
|
50.67.22.C0278 |
NIST |
Quantum Optical Networking and Transduction |
Boulder |
CO |
|
50.67.22.C0554 |
NIST |
Rydberg Atom-Based Blackbody Radiation Detection |
Boulder |
CO |
|
50.67.22.C0609 |
NIST |
Quantum Enhanced Rydberg Atom Sensors |
Boulder |
CO |
|
50.67.22.C0704 |
NIST |
Label-free Biomolecule Sensing with Microwave Microfluidics |
Boulder |
CO |
|
50.67.22.C0717 |
NIST |
Superconductive Electronics for Quantum Computing, Neuromorphic Computing, and RF Communications Metrology |
Boulder |
CO |
|
50.67.22.C0770 |
NIST |
Millimeter-Wave over-the-air Waveform Signatures |
Boulder |
CO |
|
50.67.22.C0781 |
NIST |
Acoustic-electric microfluidic spectroscopy |
Boulder |
CO |
|
50.67.22.C0877 |
NIST |
Rydberg Atom Based Sources |
Boulder |
CO |
|
50.67.26.C0416 |
NIST |
Optical Time and Frequency Transfer |
Boulder |
CO |
|
50.67.26.C0611 |
NIST |
Frequency Combs for Remote Sensing |
Boulder |
CO |
|
50.68.62.B4380 |
NIST |
Semiconductor Quantum Optics |
Boulder |
CO |
|
50.68.62.B4766 |
NIST |
Spectroscopy of Wide-Bandgap Mesoscopic Materials Characterization by CW and Ultrafast Nonlinear Optics |
Boulder |
CO |
|
50.68.62.B4777 |
NIST |
Nano-Electromagnetic Imaging |
Boulder |
CO |
|
50.68.62.B5520 |
NIST |
Broadband Nanoimaging of Optically Excited Free Carriers |
Boulder |
CO |
|
50.68.62.B5559 |
NIST |
Nonlinear Optical Studies of Polymer, Biomimetic, and Biological Interfaces |
Boulder |
CO |
|
50.68.62.B5884 |
NIST |
Optical Spectroscopy of Quantum Dots |
Boulder |
CO |
|
50.68.62.B5887 |
NIST |
Metrology and Prototyping of Wide-Bandgap Semiconductor Quantum Nanowire Structures and Devices |
Boulder |
CO |
|
50.68.62.B5923 |
NIST |
State Resolved THz and Ultraviolet Studies of Polypeptide Structure and Dynamics |
Boulder |
CO |
|
50.68.62.B6229 |
NIST |
Biomagnetic Imaging and Sensing |
Boulder |
CO |
|
50.68.62.B6459 |
NIST |
Coherent Spectroscopy of Quantum Dots |
Boulder |
CO |
|
50.68.62.B6460 |
NIST |
Engineered Quantum States of Light |
Boulder |
CO |
|
50.68.62.B6468 |
NIST |
Quantitative Magnetic Resonance Imaging |
Boulder |
CO |
|
50.68.62.B6732 |
NIST |
Microwave Polarimetry: Precision Measurements for Cosmological Physics |
Boulder |
CO |
|
50.68.62.B7010 |
NIST |
Label-free Optical Medical Imaging |
Boulder |
CO |
|
50.68.62.B7559 |
NIST |
Superconducting Quantum Circuits: Computing & Simulations, Microwave Optomechanics, Foundations of Measurement |
Boulder |
CO |
|
50.68.62.B7583 |
NIST |
Radiation Pressure - Using the Momentum of Light to Measure its Power |
Boulder |
CO |
|
50.68.62.B7731 |
NIST |
Laser-Matter Interactions in Extreme Ultraviolet Atom Probe Tomography |
Boulder |
CO |
|
50.68.62.B7923 |
NIST |
Quantum Nanomechanics with Superconducting Microwave Circuits |
Boulder |
CO |
|
50.68.62.B7934 |
NIST |
MRI Diffusion Imaging and Thermometry |
Boulder |
CO |
|
50.68.62.B8069 |
NIST |
Superconducting Nanowire Single-Photon Detectors |
Boulder |
CO |
|
50.68.62.B8193 |
NIST |
Metrology for Faint Photonics |
Boulder |
CO |
|
50.68.62.B8226 |
NIST |
Quantitative Photoacoustic Imaging and Spectroscopy |
Boulder |
CO |
|
50.68.62.B8246 |
NIST |
Quantum Circuits and Parametric Techniques in Quantum Information |
Boulder |
CO |
|
50.68.62.B8301 |
NIST |
MRI-Based Multimodal Imaging and Enhanced MR Imaging |
Boulder |
CO |
|
50.68.62.B8322 |
NIST |
Microfabricated Magnetic Sensors and Novel MRI/NMR Agents and Microdevices |
Boulder |
CO |
|
50.68.62.B8409 |
NIST |
Chip-Scale Nonlinear Optics |
Boulder |
CO |
|
50.68.62.B8483 |
NIST |
Neuromorphic Computing Using Superconducting Optoelectronic Neural Networks |
Boulder |
CO |
|
50.68.62.C0076 |
NIST |
Integrated Quantum Nanophotonic Systems |
Boulder |
CO |
|
50.68.62.C0093 |
NIST |
Neural Net Deep-learning for Magnetic Resonance Image Reconstruction and Diagnosis |
Boulder |
CO |
|
50.68.62.C0177 |
NIST |
Chip-scale Radiometry |
Boulder |
CO |
|
50.68.62.C0286 |
NIST |
Materials for Quantum Information Applications |
Boulder |
CO |
|
50.68.62.C0298 |
NIST |
Spectroscopic and Radiometric Monitoring of High-power Laser-metal Interaction |
Boulder |
CO |
|
50.68.62.C0390 |
NIST |
(S)TEM Characterization of Superconducting Materials for Quantum Computing |
Boulder |
CO |
|
50.68.62.C0616 |
NIST |
Frequency Combs for the Remote Sensing of Agricultural Gas Emissions |
Boulder |
CO |
|
50.68.62.C0751 |
NIST |
Measurement of Greenhouse Gas Emissions |
Boulder |
CO |
|
50.68.62.C0834 |
NIST |
Training, Optimization and Benchmarking of Hardware Neural Networks |
Boulder |
CO |
|
50.68.62.C0889 |
NIST |
Superconducting nanowire single-photon detector cameras and applications |
Boulder |
CO |
|
50.68.62.C0922 |
NIST |
Photonic Quantum Networking |
Boulder |
CO |
|
50.68.62.C0934 |
NIST |
Superconducting Circuits for Quantum Information Processing |
Boulder |
CO |
|
50.68.62.C0945 |
NIST |
Magnetic Resonance in Industrial Applications |
Boulder |
CO |
|
50.68.62.C0948 |
NIST |
Advanced MRI |
Boulder |
CO |
|
50.68.72.B3587 |
NIST |
Superconducting Detectors for Photons from Millimeter Waves through Gamma Rays |
Boulder |
CO |
|
50.68.72.B5189 |
NIST |
Superconducting Quantum Interference Device Development |
Boulder |
CO |
|
50.68.72.B6412 |
NIST |
Spin Electronics |
Boulder |
CO |
|
50.68.72.B7814 |
NIST |
Phase and Frequency Dynamics of Arrays of Coupled Spin Torque Oscillators |
Boulder |
CO |
|
50.68.72.B7935 |
NIST |
Hybrid Superconductor-Ferromagnetic Devices |
Boulder |
CO |
|
50.68.72.B7939 |
NIST |
Dynamics and Magnetic Properties of Materials and Nanostructures for Advanced Data Storage and Spintronics |
Boulder |
CO |
|
50.68.72.B8148 |
NIST |
SFQ Synthesizer |
Boulder |
CO |
|
50.68.72.B8373 |
NIST |
High-Performance Cryogenics |
Boulder |
CO |
|
50.68.72.B8406 |
NIST |
X-Ray Science with Superconducting Sensors |
Boulder |
CO |
|
50.68.72.B8411 |
NIST |
Johnson Noise Thermometry with Superconductive Waveform Synthesizers |
Boulder |
CO |
|
50.68.72.B8565 |
NIST |
Spin-orbit Phenomena in Magnetic Structures for Spintronics and Spin-orbitronics |
Boulder |
CO |
|
50.68.72.C0245 |
NIST |
Neuromorphic Computing and Artificial Intelligence Hardware |
Boulder |
CO |
|
50.68.72.C0330 |
NIST |
Ultra-fast spectroscopy and imaging of magnetization dynamics |
Boulder |
CO |
|
50.68.82.B1802 |
NIST |
Ion Storage |
Boulder |
CO |
|
50.68.82.B4405 |
NIST |
Optical Frequency Combs for Clocks, Metrology, Waveform Synthesis and Spectroscopy |
Boulder |
CO |
|
50.68.82.B8165 |
NIST |
Atomic Clocks and Wavelength References on a Chip |
Boulder |
CO |
|
50.68.82.B8493 |
NIST |
Atomic Devices and Instrumentation with Laser-Cooled Atoms |
Boulder |
CO |
|
50.68.82.C0044 |
NIST |
Optical Atomic Clocks Based on Laser-Cooled Neutral Atoms |
Boulder |
CO |
|
50.68.82.C0807 |
NIST |
Chip-scale atomic magnetometers |
Boulder |
CO |
|
50.68.92.B1813 |
NIST |
Spectroscopy, Dynamics, and Kinetics of Molecules |
Boulder |
CO |
|
50.68.92.B4406 |
NIST |
Ultrafast Physics and Precision Spectroscopy |
Boulder |
CO |
|
50.68.92.B4592 |
NIST |
Quantum Science and Precision Metrology - Quantum Matter Probed with Novel Light Source |
Boulder |
CO |
|
50.68.92.B8150 |
NIST |
Photophysics of Fluorescent Proteins and Quantum Spectroscopy of Molecular Systems |
Boulder |
CO |
|
50.68.92.B8346 |
NIST |
Biophysics: Studying Single Biological Molecules with Atomic-Scale Resolution |
Boulder |
CO |
|
50.68.92.C0095 |
NIST |
Towards Enhanced Quantum Metrology and Quantum Simulation with Correlated Quantum Matter |
Boulder |
CO |
|
50.68.92.C0455 |
NIST |
Microscopically-Controlled Quantum Systems of Neutral Atoms for Many-Body Physics and Metrology |
Boulder |
CO |
|
50.68.92.C0555 |
NIST |
Trapped-ion Quantum Information Processing |
Boulder |
CO |
|
50.68.92.C0852 |
NIST |
Biophysics of Conformational Folding at the Single Molecule Level: RNA, DNA, Riboswitches, and Ribozymes |
Boulder |
CO |
|
50.68.92.C0855 |
NIST |
Ultrafast Laser Studies of Hot Electron Photoemission Dynamics and Scanning Photoionization Microscopy (SPIM) of Plasmonic Nanostructures |
Boulder |
CO |
|
50.77.12.B5623 |
NIST |
Quantum Information Science |
Boulder |
CO |
|
50.77.12.B7897 |
NIST |
Uncertainty Quantification and Computational Materials Science |
Boulder |
CO |
|
50.77.12.B7912 |
NIST |
Computational Electromagnetics |
Boulder |
CO |
|
50.77.12.B7973 |
NIST |
Statistics for Quantum Systems |
Boulder |
CO |
|
50.77.12.C0180 |
NIST |
Quantum Networking |
Boulder |
CO |
|
50.77.12.C0949 |
NIST |
Physics-based Computation |
Boulder |
CO |
|
50.77.62.C0871 |
NIST |
Method Development and Best Practices for Atomic Clock Metrology |
Boulder |
CO |
|
13.04.01.B5492 |
AF STFP |
Closed Loop Flow Control |
US Air Force Academy |
CO |
|
13.04.01.B8568 |
AF STFP |
Computational Design Simulation of Hypersonic Vehicles |
US Air Force Academy |
CO |
|
13.04.01.C0497 |
AF STFP |
Fundamental Combustion Kinetics Using Advanced Laser Diagnostics |
US Air Force Academy |
CO |
|
13.04.01.C0859 |
AF STFP |
Computational Fluid Dynamics for Advanced Air Vehicles |
US Air Force Academy |
CO |
|
13.04.01.C0870 |
AF STFP |
Computational Modeling of Fundamental Combustion Processes |
US Air Force Academy |
CO |
|
13.04.02.B5798 |
AF STFP |
Dynamics of Ionospheric and Mesospheric Optical Emissions |
US Air Force Academy |
CO |
|
13.04.02.B7637 |
AF STFP |
Space Situational Awareness |
US Air Force Academy |
CO |
|
13.04.03.B7788 |
AF STFP |
Laboratories for Functional Polymers and Composites for Advanced Materials |
US Air Force Academy |
CO |
|
13.04.05.B8432 |
AF STFP |
Extremophile Research |
US Air Force Academy |
CO |
|
13.04.05.C0768 |
AF STFP |
Post-Doctoral Fellowship Investigating Francisella tularensis (Tularemia) |
US Air Force Academy |
CO |
|
13.04.05.C0916 |
AF STFP |
Biotechnology and Genetic Engineering for Advanced Materials and Manufacturing and Bioreporters |
US Air Force Academy |
CO |
|
13.04.06.B7697 |
AF STFP |
Cooperative Autonomous Unmanned Aerial Systems |
US Air Force Academy |
CO |
|
13.04.08.B8275 |
AF STFP |
Applying Information Technology to Create Research-Based Innovative Learning Pedagogies |
US Air Force Academy |
CO |
|
13.04.09.C0636 |
AF STFP |
Autonomous Systems: Novel behaviors and applications of air and ground robots |
US Air Force Academy |
CO |
|
26.03.53.C0522 |
NOAA |
Wild Scallop Population Resilience: Using Multigenerational Studies to Estimate Robustness and Adaptive Potential to Rapidly Changing Ocean Acidification |
Milford |
CT |
|
27.01.01.C0490 |
FHWA |
Development of Next Generation Model of the Highway Economic Requirements System (HERS) |
Washington |
DC |
|
64.15.04.B5315 |
NRL |
Advanced Acoustic Materials and Metamaterials |
Washington |
DC |
|
64.15.04.B7073 |
NRL |
Nanomechanics, Nanomaterials, Nanofabrication, Nanooptics, and Surface Chemistry |
Washington |
DC |
|
64.15.04.B7434 |
NRL |
Heat Transport in Nanostructured Materials and Thin Dielectric Films |
Washington |
DC |
|
64.15.04.B7706 |
NRL |
Ocean Acoustic Communications and Signal Processing |
Washington |
DC |
|
64.15.04.B7975 |
NRL |
Hydrogen and Oxygen Storage for Undersea Fuel Cells |
Washington |
DC |
|
64.15.04.B7992 |
NRL |
Low loss amorphous dielectric thin films for superconducting qubit applications |
Washington |
DC |
|
64.15.04.B8408 |
NRL |
Computational Mechanics and Structural-Acoustics |
Washington |
DC |
|
64.15.04.C0005 |
NRL |
Hydrodynamic Tank Experimental Research |
Washington |
DC |
|
64.15.04.C0321 |
NRL |
Catalysis of CO2 to reactive intermediates for fuel production |
Washington |
DC |
|
64.15.04.C0464 |
NRL |
Physics Informed Data Analytics and Modeling for Dynamical Systems |
Washington |
DC |
|
64.15.04.C0568 |
NRL |
Value-added Localization with Noise |
Washington |
DC |
|
64.15.04.C0880 |
NRL |
Ambient Sound Modeling in Complex Ocean Environments |
Washington |
DC |
|
64.15.06.B2658 |
NRL |
Infrared Astronomy |
Washington |
DC |
|
64.15.06.B2659 |
NRL |
Radio Astronomy |
Washington |
DC |
|
64.15.06.B2660 |
NRL |
Millimeter-Wave Atmospheric Spectroscopy |
Washington |
DC |
|
64.15.06.B2661 |
NRL |
Instrumentation Development for Astronomy and Remote Sensing |
Washington |
DC |
|
64.15.06.B2663 |
NRL |
Astronomical Optical Interferometry |
Washington |
DC |
|
64.15.06.B2671 |
NRL |
Remote Sensing |
Washington |
DC |
|
64.15.06.B2673 |
NRL |
Hyperspectral Characterization of the Coastal Regime |
Washington |
DC |
|
64.15.06.B2678 |
NRL |
Polar Ozone and Aerosol Measurement Experiment (POAM III) |
Washington |
DC |
|
64.15.06.B3086 |
NRL |
Numerical Modeling of River-Influenced Coastal Ocean Dynamics |
Washington |
DC |
|
64.15.06.B4357 |
NRL |
Advanced Seafloor Mapping and Image Processing |
Washington |
DC |
|
64.15.06.B4881 |
NRL |
Analysis of Hyperspectral and Multisensor Imaging Data |
Washington |
DC |
|
64.15.06.B6340 |
NRL |
Satellite Analysis of Pyro-Convection and Chemical/Transport Processes in the Upper Troposphere and Lower Stratosphere |
Washington |
DC |
|
64.15.06.B7271 |
NRL |
Middle Atmospheric Data Assimilation |
Washington |
DC |
|
64.15.06.B7564 |
NRL |
Ionospheric Studies with Radio-frequency Interferometers |
Washington |
DC |
|
64.15.06.B7600 |
NRL |
Spectral remote sensing of terrain, modeling, and analysis |
Washington |
DC |
|
64.15.06.B7981 |
NRL |
Hydrologic Optics and Ocean Color Remote Sensing |
Washington |
DC |
|
64.15.06.C0429 |
NRL |
Remote Sensing of Surface Fluxes of Sea Spray, Gases, and Heat for Air-Sea Interaction Studies |
Washington |
DC |
|
64.15.06.C0492 |
NRL |
Radar technology, processing, and analysis |
Washington |
DC |
|
64.15.06.C0684 |
NRL |
Novel Approaches for High-Resolution Remote Sensing of the Coastal Regime |
Washington |
DC |
|
64.15.06.C0811 |
NRL |
Remote Sensing of the Cryosphere and Soil Moisture |
Washington |
DC |
|
64.15.06.C0812 |
NRL |
Remote Sensing of Air-Wave-Sea Interactions and Upper Ocean Dynamics |
Washington |
DC |
|
64.15.06.C0825 |
NRL |
Radio Remote Sensing of Space Weather |
Washington |
DC |
|
64.15.06.C0828 |
NRL |
Multi-sensor remote sensing across terrestrial-aquatic interfaces |
Washington |
DC |
|
64.15.06.C0835 |
NRL |
Ensemble Aerosol Forecasting and Data Assimilation |
Washington |
DC |
|
64.15.06.C0837 |
NRL |
Remote Sensing of Melt Ponds and Sea Ice in the Arctic |
Washington |
DC |
|
64.15.06.C0897 |
NRL |
Space weather model coupling |
Washington |
DC |
|
64.15.06.C0908 |
NRL |
Thermospheric Ensemble Data Assimilation |
Washington |
DC |
|
64.15.09.B6693 |
NRL |
Simultaneous Monitoring of Multiple Intracellular Signaling Events |
Washington |
DC |
|
64.15.09.B7949 |
NRL |
Nanoscale Probes for Real-Time Imaging of Neuronal Cell Activity |
Washington |
DC |
|
64.15.09.B8115 |
NRL |
Center for BioMolecular Science and Engineering (Multiple Opportunities) |
Washington |
DC |
|
64.15.09.B8126 |
NRL |
Nanoparticle-Biomolecular Interfacial Phenomena |
Washington |
DC |
|
64.15.09.B8532 |
NRL |
Ultrafast Studies of Charge Transfer Plasmonics |
Washington |
DC |
|
64.15.09.B8545 |
NRL |
Intercellular Signaling and Functional Nanomaterials at the Abiotic/Biotic Interface |
Washington |
DC |
|
64.15.09.C0350 |
NRL |
Applied Molecular Microbiology |
Washington |
DC |
|
64.15.09.C0351 |
NRL |
Marine Environmental DNA (eDNA) Research |
Washington |
DC |
|
64.15.09.C0367 |
NRL |
DNA-based Nanoplasmonics |
Washington |
DC |
|
64.15.09.C0386 |
NRL |
Understanding Light-Matter Interactions in Plasmonic Aerosols |
Washington |
DC |
|
64.15.09.C0387 |
NRL |
Controlling light on demand with dynamic plasmonic pixels |
Washington |
DC |
|
64.15.09.C0752 |
NRL |
Synthetic phages and antibiotic alternatives |
Washington |
DC |
|
64.15.09.C0817 |
NRL |
Control of CRISPR/Cas through surface interactions |
Washington |
DC |
|
64.15.09.C0843 |
NRL |
Nanomaterial-enhanced bacterial synthetic biology |
Washington |
DC |
|
64.15.09.C0845 |
NRL |
Bionanotechnology/Nanoscience/Cell Biology/Biophysics |
Washington |
DC |
|
64.15.09.C0971 |
NRL |
cdsMiniature Biosensors |
Washington |
DC |
|
64.15.15.B2680 |
NRL |
Femtosecond Studies of Molecular Dynamics |
Washington |
DC |
|
64.15.15.B2728 |
NRL |
Simulations of Chemical Reactions in Materials |
Washington |
DC |
|
64.15.15.B2732 |
NRL |
Chemical Sensors-Data Analysis Strategies |
Washington |
DC |
|
64.15.15.B2737 |
NRL |
Surface Chemistry of Electronic Materials |
Washington |
DC |
|
64.15.15.B2757 |
NRL |
Polymer networks |
Washington |
DC |
|
64.15.15.B2778 |
NRL |
Multi-Phase Combustion Mechanisms and Diagnostics |
Washington |
DC |
|
64.15.15.B2779 |
NRL |
Combustion Modeling |
Washington |
DC |
|
64.15.15.B3024 |
NRL |
Corrosion and Corrosion Protection |
Washington |
DC |
|
64.15.15.B3984 |
NRL |
Chemical Reactions at Surfaces |
Washington |
DC |
|
64.15.15.B3987 |
NRL |
Spectroscopic Studies of Plasma Processing |
Washington |
DC |
|
64.15.15.B4861 |
NRL |
Development of Sensing Technologies for Shipboard Fuel Diagnostics and Prognostics |
Washington |
DC |
|
64.15.15.B5073 |
NRL |
Optical Studies of Catalysts and Fuel Cells |
Washington |
DC |
|
64.15.15.B5077 |
NRL |
Theoretical Materials Chemistry |
Washington |
DC |
|
64.15.15.B5299 |
NRL |
Nuclear Magnetic Resonance Spectroscopy of Materials |
Washington |
DC |
|
64.15.15.B5300 |
NRL |
Nuclear Magnetic Resonance and Nuclear Quadrupole Resonance for Materials Evaluation |
Washington |
DC |
|
64.15.15.B5424 |
NRL |
Fire Fighting Foams: Dynamics and Behavior |
Washington |
DC |
|
64.15.15.B5643 |
NRL |
Designing Mesoporous, Three-Dimensional Nanoarchitectures and Nanocomposites |
Washington |
DC |
|
64.15.15.B6047 |
NRL |
Polymer Rheology |
Washington |
DC |
|
64.15.15.B6051 |
NRL |
Functional Material Synthesis and Crystal Growth |
Washington |
DC |
|
64.15.15.B6581 |
NRL |
Intelligent Data Fusion for Multi-Modal or Multi-Sensory Systems |
Washington |
DC |
|
64.15.15.B6676 |
NRL |
Optimizing Metal-Adsorbate and Metal-Support Interactions for Photocatalysis and Plasmonics-Driven Chemistry |
Washington |
DC |
|
64.15.15.B7121 |
NRL |
Trace Analysis Testing and Verification |
Washington |
DC |
|
64.15.15.B7714 |
NRL |
Nonlinear Optics at the Nanoscale |
Washington |
DC |
|
64.15.15.B7717 |
NRL |
Development of Novel Synthesis Methods and Formulations for Metal Nanoparticles and Nanopowders |
Washington |
DC |
|
64.15.15.B7825 |
NRL |
Trace Analysis Testing and Verification of Energetic Materials |
Washington |
DC |
|
64.15.15.B7921 |
NRL |
Novel Multifunctional Polymeric Materials for Military Applications |
Washington |
DC |
|
64.15.15.B7926 |
NRL |
Extended Solids Design and Synthesis |
Washington |
DC |
|
64.15.15.B8030 |
NRL |
Development of Stimuli-Responsive Molecules and Networks Thereof for Naval Applications |
Washington |
DC |
|
64.15.15.B8044 |
NRL |
Lithium-ion Battery Performance and Safety |
Washington |
DC |
|
64.15.15.B8394 |
NRL |
Diagnostics and Prediction of Turbulent, Multi-phase Fluid Mechanics |
Washington |
DC |
|
64.15.15.B8498 |
NRL |
Postdoctoral Research Associate in Biofabrication, Tissue Engineering, Microphysiological Systems |
Washington |
DC |
|
64.15.15.C0155 |
NRL |
Development of Novel Solid-State and Hybrid Ionic Conductors and Electrolytes |
Washington |
DC |
|
64.15.15.C0173 |
NRL |
Quantum Computing for Quantum Chemistry |
Washington |
DC |
|
64.15.15.C0178 |
NRL |
Machine Learning for Synthetic Chemistry |
Washington |
DC |
|
64.15.15.C0261 |
NRL |
High Performance Biomaterials for Operation in Extreme and Underwater Environments |
Washington |
DC |
|
64.15.15.C0346 |
NRL |
Multifunctional Catalytic Materials for Degradation and Energy Conversion |
Washington |
DC |
|
64.15.15.C0445 |
NRL |
Bio-inspired Design of Multi-Functional Materials |
Washington |
DC |
|
64.15.15.C0465 |
NRL |
Energy Storage Materials |
Washington |
DC |
|
64.15.15.C0479 |
NRL |
Development of Multifunctional Materials for Heterogeneous or Electro-Catalysis |
Washington |
DC |
|
64.15.15.C0541 |
NRL |
Thin-Film Conductive Polymer Synthesis, Processing, and Characterization |
Washington |
DC |
|
64.15.15.C0571 |
NRL |
Solid Electrolyte Fuel Cell Technologies |
Washington |
DC |
|
64.15.15.C0585 |
NRL |
Aerosol Deposition and Atmospheric Corrosion |
Washington |
DC |
|
64.15.15.C0654 |
NRL |
Data Analytics and Modeling for Analytical Chemistry |
Washington |
DC |
|
64.15.15.C0692 |
NRL |
Polymer nanocomposites |
Washington |
DC |
|
64.15.15.C0709 |
NRL |
Photo/Electroactive Functional Materials for Navy Applications |
Washington |
DC |
|
64.15.15.C0773 |
NRL |
Design of selective electrocatalysts |
Washington |
DC |
|
64.15.15.C0774 |
NRL |
Characterizing Phenomenon Governing Battery Performance |
Washington |
DC |
|
64.15.15.C0778 |
NRL |
Basic and Applied Research Toward Improving Battery Safety, Performance, and Reliability |
Washington |
DC |
|
64.15.15.C0791 |
NRL |
Marine biology, technology, and engineering |
Washington |
DC |
|
64.15.15.C0816 |
NRL |
Charge transport and dielectric losses under extreme electric fields |
Washington |
DC |
|
64.15.15.C0840 |
NRL |
Synthetic Control of High Energy Mixed Metal Nanopowders |
Washington |
DC |
|
64.15.15.C0921 |
NRL |
Cavity-modified physical and chemical behavior |
Washington |
DC |
|
64.15.15.C0946 |
NRL |
Multi-Phase Combustion Enhanced by Plasma |
Washington |
DC |
|
64.15.15.C0965 |
NRL |
Single crystal diamond Synthesis and Doping for Quantum and High Powered Device Applications |
Washington |
DC |
|
64.15.18.B4651 |
NRL |
Intelligent Decision Aids |
Washington |
DC |
|
64.15.18.B5294 |
NRL |
Cognition in Complex Tasks |
Washington |
DC |
|
64.15.18.B8141 |
NRL |
Multisensory Integration and Inference in an Attention-Driven Cognitive System |
Washington |
DC |
|
64.15.18.B8142 |
NRL |
Reasoning and Explanation in a Computational Cognitive Architecture |
Washington |
DC |
|
64.15.18.B8290 |
NRL |
Intelligent Agents |
Washington |
DC |
|
64.15.18.B8356 |
NRL |
Cognitive Models of Thinking and Reasoning |
Washington |
DC |
|
64.15.18.B8506 |
NRL |
Investigating Large Generative Models and/or Physics-based Neural Network Modeling |
Washington |
DC |
|
64.15.18.C0633 |
NRL |
Computational Models of Perception and Attention |
Washington |
DC |
|
64.15.18.C0876 |
NRL |
Environment Dependent Sensor Fusion for Robotic Perception |
Washington |
DC |
|
64.15.25.B2840 |
NRL |
Structural Characterization of Electronic Materials |
Washington |
DC |
|
64.15.25.B2841 |
NRL |
Chemical Vapor Sensor development |
Washington |
DC |
|
64.15.25.B3603 |
NRL |
Femtosecond Dynamics in Condensed Matter |
Washington |
DC |
|
64.15.25.B4347 |
NRL |
Optical and Structural Properties of Wide Bandgap Semiconductors |
Washington |
DC |
|
64.15.25.B4871 |
NRL |
Photophysical Processes in Nanoscale Materials |
Washington |
DC |
|
64.15.25.B5718 |
NRL |
Defects Affecting SiC Power Devices |
Washington |
DC |
|
64.15.25.B5722 |
NRL |
Infrared-Bandgap Type II Antimonide Superlattices for Infrared Photodetectors and Focal Plane Array |
Washington |
DC |
|
64.15.25.B6832 |
NRL |
SiC and GaN Power Devices |
Washington |
DC |
|
64.15.25.B7522 |
NRL |
2D Materials: Fundamental studies in Processing, Nanofabrication, Transport, and Optoelectronics |
Washington |
DC |
|
64.15.25.B7603 |
NRL |
Graphene and 2D Materials: Growth, Functionalization, and Devices |
Washington |
DC |
|
64.15.25.B7826 |
NRL |
SubDiffraction Confinement of Photons using Surface Plasmon and Surface Phonon Polariton Nanostructures |
Washington |
DC |
|
64.15.25.B7920 |
NRL |
Gallium Nitride MEMS Acoustic Resonators |
Washington |
DC |
|
64.15.25.B7955 |
NRL |
Advanced Processing Techniques for Next Generation Photovoltaics and IR Photodetectors |
Washington |
DC |
|
64.15.25.B8128 |
NRL |
Synthesis and Characterization of Nanomaterials for Optoelectronics and Quantum Technologies |
Washington |
DC |
|
64.15.25.B8129 |
NRL |
Solid State Quantum Science and Technology (Optics) |
Washington |
DC |
|
64.15.25.B8317 |
NRL |
Solid State Quantum Science and Technology |
Washington |
DC |
|
64.15.25.B8530 |
NRL |
Epitaxial Growth and Characterization of Metal Oxide and Nitride Thin Films |
Washington |
DC |
|
64.15.25.C0006 |
NRL |
Decentralized Computing on Autonomous Mobile Platforms |
Washington |
DC |
|
64.15.25.C0106 |
NRL |
Ultra-wide bandgap semiconductor devices and materials |
Washington |
DC |
|
64.15.25.C0198 |
NRL |
Environmentally-Controlled Pressure-Assisted Sintering (EC-PAS) of Nanopowders |
Washington |
DC |
|
64.15.25.C0263 |
NRL |
Nanoscale Photonics |
Washington |
DC |
|
64.15.25.C0352 |
NRL |
Photophysics in 2D Materials |
Washington |
DC |
|
64.15.25.C0405 |
NRL |
Materials Scientist in Atomic Layer Deposition (ALD) |
Washington |
DC |
|
64.15.25.C0417 |
NRL |
Heterogeneous Integration for Advanced Microscale Optoelectronic Devices |
Washington |
DC |
|
64.15.25.C0486 |
NRL |
Manipulating Light at the Nanoscale |
Washington |
DC |
|
64.15.25.C0657 |
NRL |
High Performance Metal Halide Perovskite Photovoltaics (PV) for Current and Future Naval Applications |
Washington |
DC |
|
64.15.25.C0668 |
NRL |
Integrated photonic networks for quantum information and neuromorphic computing applications |
Washington |
DC |
|
64.15.25.C0685 |
NRL |
Colloidal Nanocrystal Ordered Solids and Halide Perovskites for Solution-Processable Optoelectronics |
Washington |
DC |
|
64.15.25.C0741 |
NRL |
Wide bandgap material and device characterization. |
Washington |
DC |
|
64.15.25.C0758 |
NRL |
Atomic layer deposition on particles |
Washington |
DC |
|
64.15.25.C0793 |
NRL |
Wide and Ultra-Wide Bandgap Semiconductor Growth, Integration, and Characterization |
Washington |
DC |
|
64.15.25.C0804 |
NRL |
Atomic Layer Deposition of Electronic Thin Films |
Washington |
DC |
|
64.15.25.C0827 |
NRL |
Atomic Layer Deposition for Optoelectronics |
Washington |
DC |
|
64.15.25.C0868 |
NRL |
Energy Migration in DNA-organized Dye Networks |
Washington |
DC |
|
64.15.25.C0893 |
NRL |
Computational materials design and engineering |
Washington |
DC |
|
64.15.25.C0896 |
NRL |
Advanced RF-Acoustic Devices for Multi-Domain Applications |
Washington |
DC |
|
64.15.25.C0913 |
NRL |
Epitaxial Growth of Ultra-wide Bandgap Semiconductors for Next-generation RF Electronics |
Washington |
DC |
|
64.15.25.C0953 |
NRL |
Wide and Ultrawide Bandgap Materials and Devices |
Washington |
DC |
|
64.15.25.C0954 |
NRL |
III-Nitride Power Electronic Devices |
Washington |
DC |
|
64.15.27.B2843 |
NRL |
Combustion Dynamics |
Washington |
DC |
|
64.15.27.B2845 |
NRL |
Solar, Atmospheric, and Astrophysical Sciences |
Washington |
DC |
|
64.15.27.B2846 |
NRL |
Turbulence in Nonreacting and Reacting Flows |
Washington |
DC |
|
64.15.27.B2848 |
NRL |
Vortex Shedding and Transient Fluid Dynamics |
Washington |
DC |
|
64.15.27.C0283 |
NRL |
Hypersonic Vehicle Aerodynamics and Propulsion |
Washington |
DC |
|
64.15.55.C0772 |
NRL |
Machine-Aided Radar Inverse Scattering for Improving Target Imaging and Recognition |
Washington |
DC |
|
64.15.67.B3978 |
NRL |
Infrared Semiconductor Lasers and Detectors |
Washington |
DC |
|
64.15.67.B3981 |
NRL |
Advanced Simulation of Semiconductor Quantum Heterostructure Devices |
Washington |
DC |
|
64.15.67.B6113 |
NRL |
Laser Cooling and Guiding of Atoms in Optical Waveguides |
Washington |
DC |
|
64.15.67.B6651 |
NRL |
Nanophotonics, Semiconductor Optics, and Integrated Photonics |
Washington |
DC |
|
64.15.67.B8036 |
NRL |
MBE of Antimonide and Phosphide Lasers, Detectors, and Solar Cells |
Washington |
DC |
|
64.15.67.B8092 |
NRL |
Micro-/Nano-Optomechanical Systems and Optical MEMS: Mode Perturbation, Optical Forces, and Light Matter Interactions |
Washington |
DC |
|
64.15.67.B8176 |
NRL |
Cold Atom Quantum Information Science |
Washington |
DC |
|
64.15.67.C0213 |
NRL |
Advanced Atomic Quantum Sensors and Clocks |
Washington |
DC |
|
64.15.67.C0223 |
NRL |
Design, Synthesis, and Application of Colloidal Nanocrystal Systems |
Washington |
DC |
|
64.15.67.C0757 |
NRL |
Aerosol Science |
Washington |
DC |
|
64.15.67.C0759 |
NRL |
Laser propagation and imaging in adverse conditions |
Washington |
DC |
|
64.15.67.C0766 |
NRL |
photonic nanomaterials for chemical and biological application |
Washington |
DC |
|
64.15.67.C0879 |
NRL |
Warm Atom-Light Interaction Sensing |
Washington |
DC |
|
64.15.67.C0920 |
NRL |
Aerosol Mass Spectroscopy |
Washington |
DC |
|
64.15.76.B2951 |
NRL |
Short-Wavelength Laser—Vacuum-Ultraviolet and X-Ray Lasers |
Washington |
DC |
|
64.15.76.B2957 |
NRL |
Radiation Magneto-Hydrodynamics of High Energy Density Plasmas |
Washington |
DC |
|
64.15.76.B2961 |
NRL |
Dense-Plasma Atomic Physics |
Washington |
DC |
|
64.15.76.B2963 |
NRL |
Pulsed-Power X-Ray Sources |
Washington |
DC |
|
64.15.76.B2964 |
NRL |
Pulsed Power |
Washington |
DC |
|
64.15.76.B2965 |
NRL |
Diode Physics |
Washington |
DC |
|
64.15.76.B2967 |
NRL |
Laboratory, Ionospheric, and Space Experiments |
Washington |
DC |
|
64.15.76.B2968 |
NRL |
Space Physics Simulation Chamber Experiments |
Washington |
DC |
|
64.15.76.B2970 |
NRL |
Nonlinear Science |
Washington |
DC |
|
64.15.76.B2971 |
NRL |
Physics of Intense Ultrashort Pulse Laser-Matter Interactions |
Washington |
DC |
|
64.15.76.B2975 |
NRL |
Nonlinear Dynamics and Chaos Research of High Dimensional Systems in the Physical and Biological Sciences |
Washington |
DC |
|
64.15.76.B3606 |
NRL |
Space-Plasma Physics |
Washington |
DC |
|
64.15.76.B4340 |
NRL |
Inertial Confinement Fusion and Laser-Driven Hydrodynamics |
Washington |
DC |
|
64.15.76.B4870 |
NRL |
Dynamics and Stability of Radiating High Energy Density Plasmas |
Washington |
DC |
|
64.15.76.B5709 |
NRL |
Advanced Plasma Diagnostics |
Washington |
DC |
|
64.15.76.B5710 |
NRL |
Advanced Plasma Processing |
Washington |
DC |
|
64.15.76.B5711 |
NRL |
Low-Temperature Plasma Research |
Washington |
DC |
|
64.15.76.B5713 |
NRL |
Physics of the Earth’s Radiation Belt |
Washington |
DC |
|
64.15.76.B5714 |
NRL |
Dusty Plasma Experiments |
Washington |
DC |
|
64.15.76.B8084 |
NRL |
Intense Lasers and Particle Beams |
Washington |
DC |
|
64.15.76.B8524 |
NRL |
Intense Electromagnetic Field and Material Interaction Physics |
Washington |
DC |
|
64.15.76.C0368 |
NRL |
Uncertainty Quantification in Low Temperature Plasmas |
Washington |
DC |
|
64.15.76.C0420 |
NRL |
Plasma Turbulence and Nonlinear Waves |
Washington |
DC |
|
64.15.76.C0652 |
NRL |
Nonlinear Dynamics of Partially Coherent Beams |
Washington |
DC |
|
64.15.85.B2868 |
NRL |
Theoretical Studies of Electronic and Optical Properties of Nanocrystal Quantum Dots and Ordered Nanocrystal Solids |
Washington |
DC |
|
64.15.85.B2884 |
NRL |
Quantum Computation of Molecules and Materials |
Washington |
DC |
|
64.15.85.B2995 |
NRL |
Electronic Properties of Novel Electrically Conducting Systems |
Washington |
DC |
|
64.15.85.B3022 |
NRL |
Magnetic and Structural Characterization of Magnetic / Semiconductor Interfaces |
Washington |
DC |
|
64.15.85.B3026 |
NRL |
Microstructural Evolution in Naval Materials |
Washington |
DC |
|
64.15.85.B3600 |
NRL |
Spin-Injection, Transport, and Localization in Graphene and Group IV Materials |
Washington |
DC |
|
64.15.85.B4307 |
NRL |
Ferromagnetic Semiconductors: An Emerging Spintronic Materials Technology |
Washington |
DC |
|
64.15.85.B4320 |
NRL |
Laser-Based Processing of Thin Films |
Washington |
DC |
|
64.15.85.B4322 |
NRL |
Optical Spectroscopy in Condensed Matter and Materials Science |
Washington |
DC |
|
64.15.85.B4863 |
NRL |
Low-temperature Electron Transport through Nanostructures at the LaAlO3/SrTiO3 Interface |
Washington |
DC |
|
64.15.85.B4866 |
NRL |
Origin of Electron Pairing Without Superconductivity |
Washington |
DC |
|
64.15.85.B4868 |
NRL |
Interfacing Molecular and Cell Biology with Solid State Technologies |
Washington |
DC |
|
64.15.85.B5309 |
NRL |
Additive Manufacturing Microstructures |
Washington |
DC |
|
64.15.85.B5310 |
NRL |
Transmission Electron Microscopy of Nanomaterials |
Washington |
DC |
|
64.15.85.B5702 |
NRL |
Organic Synthesis in the Areas of Sorbents, Sensing Materials, and Infrared Taggants |
Washington |
DC |
|
64.15.85.B5704 |
NRL |
Direct-Write of Electronics, Sensors, and Micro-Power Sources |
Washington |
DC |
|
64.15.85.B6139 |
NRL |
Coupling Between Charged Defects and the Applied Electric Field during Flash Sintering |
Washington |
DC |
|
64.15.85.B6225 |
NRL |
Mechatronic Inverse Characterization of Materials under Multi-Field Conditions |
Washington |
DC |
|
64.15.85.B6226 |
NRL |
Computational Modeling and Simulation of Data-Driven Multiphysics Systems |
Washington |
DC |
|
64.15.85.B6293 |
NRL |
Multiscale Simulations of Mechanical, Structural, and Energetic Properties |
Washington |
DC |
|
64.15.85.B6443 |
NRL |
Theory of Functional Energy Materials |
Washington |
DC |
|
64.15.85.B7167 |
NRL |
Simulations of Nanocrystal Doping |
Washington |
DC |
|
64.15.85.B7433 |
NRL |
Optical Detection of Explosives and Other Illicit Chemicals |
Washington |
DC |
|
64.15.85.B7745 |
NRL |
Advanced Characterization of 3D Material Microstructures |
Washington |
DC |
|
64.15.85.B7886 |
NRL |
Aberration-Corrected Scanning Transmission Electron Microscopy and Lithography of Two-Dimensional Nanomaterials |
Washington |
DC |
|
64.15.85.B8177 |
NRL |
2D Materials and van der Waals Heterostructures for Opto-electronics and Quantum Science |
Washington |
DC |
|
64.15.85.B8366 |
NRL |
Metal Oxide Thin Films for Metamaterial and Plasmonic Applications |
Washington |
DC |
|
64.15.85.B8464 |
NRL |
Development of Two-Dimensional Hybrid Systems |
Washington |
DC |
|
64.15.85.C0186 |
NRL |
Density-Functional Theory Studies of Binary Nanocrystal Solids |
Washington |
DC |
|
64.15.85.C0240 |
NRL |
Physicochemical Properties of Sorbent Materials |
Washington |
DC |
|
64.15.85.C0284 |
NRL |
Metamagnetic Transitions as a Route Towards Fully Controllable Magnetism |
Washington |
DC |
|
64.15.85.C0290 |
NRL |
Theoretical Search of Nanostructure with Ground Bright Exciton States |
Washington |
DC |
|
64.15.85.C0303 |
NRL |
Spin dynamics of charge to spin conversion in topological insulators. |
Washington |
DC |
|
64.15.85.C0323 |
NRL |
Topological Materials Synthesis and Device Applications |
Washington |
DC |
|
64.15.85.C0338 |
NRL |
Low Dimensional Phase Transitional Magnetism |
Washington |
DC |
|
64.15.85.C0342 |
NRL |
Plasmonic and thin-film devices, THz photonics, metamaterials and nanophotonics |
Washington |
DC |
|
64.15.85.C0404 |
NRL |
Time resolved analysis of spin dynamics in antiferromagnetic films for spin to charge conversion in topological insulators |
Washington |
DC |
|
64.15.85.C0418 |
NRL |
Transmission Electron Microscopy of Planetary Materials |
Washington |
DC |
|
64.15.85.C0683 |
NRL |
Process Modelling and Optimization for the Synthesis of Multicomponent Ceramics |
Washington |
DC |
|
64.15.85.C0726 |
NRL |
Nanoscale Characterization of Advanced Nitride Materials and Devices |
Washington |
DC |
|
64.15.85.C0729 |
NRL |
Multifunctional materials for Naval Applications |
Washington |
DC |
|
64.15.85.C0756 |
NRL |
Computational Mechanics |
Washington |
DC |
|
64.15.85.C0808 |
NRL |
Additive Manufacturing of Ceramics |
Washington |
DC |
|
64.15.85.C0815 |
NRL |
Doped Semiconductor Alloy Nanostructures |
Washington |
DC |
|
64.15.85.C0824 |
NRL |
Quantitative Biointerfaces for Cell Biology |
Washington |
DC |
|
64.15.85.C0847 |
NRL |
Multifunctional Materials for Naval Applications II |
Washington |
DC |
|
64.15.85.C0865 |
NRL |
First-principles calculations of doping novel semiconductors |
Washington |
DC |
|
64.15.85.C0866 |
NRL |
Atomic-scale Patterning of Materials |
Washington |
DC |
|
64.15.85.C0936 |
NRL |
Environmental Carbon Capture and Hydrogen Production for Operational Endurance and Sustainability |
Washington |
DC |
|
64.15.85.C0987 |
NRL |
Behavior of Biological Tissues Under High Strain Rate Loading |
Washington |
DC |
|
64.15.86.B7705 |
NRL |
Eulerian Orbit Dynamics |
Washington |
DC |
|
64.15.86.B8343 |
NRL |
Electron Transpiration Cooling in Hypersonic Environments |
Washington |
DC |
|
64.15.86.C0647 |
NRL |
Ionic Liquid Electrospray Propulsion Efficiency Research |
Washington |
DC |
|
64.15.86.C0649 |
NRL |
Plasma Infused Architected Thermionic Emitting Cathode Research |
Washington |
DC |
|
64.15.86.C0782 |
NRL |
Synthesis and Performance Characterization of Ultra-high Temperature Ceramic Composites |
Washington |
DC |
|
64.15.89.B3033 |
NRL |
X-ray Instrument and Mission Development |
Washington |
DC |
|
64.15.89.B3036 |
NRL |
Gamma-Ray Burst Science |
Washington |
DC |
|
64.15.89.B3037 |
NRL |
Gamma-Ray/Neutron Instrument Development |
Washington |
DC |
|
64.15.89.B3042 |
NRL |
High-Energy Astrophysics |
Washington |
DC |
|
64.15.89.B3044 |
NRL |
Heliophysics Theory and Modeling |
Washington |
DC |
|
64.15.89.B3055 |
NRL |
Thermospheric and Ionospheric Physics |
Washington |
DC |
|
64.15.89.B5733 |
NRL |
Dynamics and Predictability of the Stratosphere and Mesosphere at Small and Large Scales |
Washington |
DC |
|
64.15.89.B5734 |
NRL |
Extension of Navy’s Global Weather Forecast Models and Prediction Capabilities to ~500 km Altitude |
Washington |
DC |
|
64.15.89.B6124 |
NRL |
Optical Atmospheric Spectroscopy |
Washington |
DC |
|
64.15.89.B6420 |
NRL |
Spectroscopic Diagnostics of Processes in Collisionless Plasma |
Washington |
DC |
|
64.15.89.B7887 |
NRL |
Climate of Earth’s Upper Atmosphere |
Washington |
DC |
|
64.15.89.B7948 |
NRL |
Magnetic Sources of Solar Activity |
Washington |
DC |
|
64.15.89.B8015 |
NRL |
The Hydrodynamics of Coronal Heating |
Washington |
DC |
|
64.15.89.B8100 |
NRL |
Ionospheric and Thermospheric Specification and Forecasting |
Washington |
DC |
|
64.15.89.B8289 |
NRL |
Ionospheric Modeling and Radio Propagation |
Washington |
DC |
|
64.15.89.C0047 |
NRL |
In-Situ Measurements and Remote Sensing of the Solar Wind |
Washington |
DC |
|
64.15.89.C0156 |
NRL |
A New Global Nonhydrostatic Model of the Deep Atmosphere from 0-500 km Altitude |
Washington |
DC |
|
64.15.89.C0191 |
NRL |
Investigation of the Solar Wind in the Solar Corona and Heliosphere |
Washington |
DC |
|
64.15.89.C0407 |
NRL |
Ionospheric Modeling |
Washington |
DC |
|
64.15.89.C0508 |
NRL |
Magnetohydrodynamic Evolution of Solar Flares |
Washington |
DC |
|
64.15.89.C0618 |
NRL |
Multiwavelength Pulsar Science |
Washington |
DC |
|
64.15.89.C0632 |
NRL |
Optical Sensor Development for Astrophysics |
Washington |
DC |
|
64.15.89.C0650 |
NRL |
Investigations of the Solar Drivers for Space Weather |
Washington |
DC |
|
64.15.89.C0854 |
NRL |
Heliophysics Theory and Modeling |
Washington |
DC |
|
13.45.01.B7694 |
AF STFP |
Additive Manufacturing of Multifunctional Materials |
Eglin Air Force Base |
FL |
|
13.45.02.B6624 |
AF STFP |
Energetic Nanocluster Thin Films |
Eglin Air Force Base |
FL |
|
13.45.02.B6888 |
AF STFP |
Structural Dynamics |
Eglin Air Force Base |
FL |
|
13.45.02.B7106 |
AF STFP |
Meso-structure – Property – Performance Relationships in Energetic Materials |
Eglin Air Force Base |
FL |
|
13.45.02.B7604 |
AF STFP |
Detonating Systems Research |
Eglin Air Force Base |
FL |
|
13.45.02.B8392 |
AF STFP |
Electromagnetics, Plasmonics, Photonics, and Metamaterials |
Eglin Air Force Base |
FL |
|
13.45.02.C0147 |
AF STFP |
Structural Dynamics and Instrumentation of Electronic Systems |
Eglin Air Force Base |
FL |
|
13.45.02.C0634 |
AF STFP |
Understanding Explosive Behavior Through Quantified Microstructural Information |
Eglin Air Force Base |
FL |
|
13.45.02.C0904 |
AF STFP |
Probing Interfacial and Micro-structural Influences on Detonation Chemistry, Sensitivity, and Resilience of Energetic Materials |
Eglin Air Force Base |
FL |
|
13.45.02.C0961 |
AF STFP |
Exploring the Thermomechanical Response of Composite Explosives at Multiple Length Scales and Strain Rates |
Eglin Air Force Base |
FL |
|
13.45.03.B7085 |
AF STFP |
Centralized Control Algorithms on a Wireless Grid |
Eglin Air Force Base |
FL |
|
13.45.03.B7505 |
AF STFP |
Characterization of Photonic Crystals, Metamaterials, and Metasurfaces |
Eglin Air Force Base |
FL |
|
13.45.03.B7626 |
AF STFP |
Target Phenomenology Modeling and Simulation for Munition Sensors |
Eglin Air Force Base |
FL |
|
13.45.03.B8521 |
AF STFP |
Unconventional Distributed Sensor Optimization and Integration for Robust Agile Flight Control |
Eglin Air Force Base |
FL |
|
13.45.03.C0356 |
AF STFP |
Photon-Phonon Coupling in Optomechanical Crystals |
Eglin Air Force Base |
FL |
|
13.45.03.C0518 |
AF STFP |
Design of Hybrid Nano-Optical Systems |
Eglin Air Force Base |
FL |
|
13.45.03.C0602 |
AF STFP |
Efficient Robust Sensing and Processing Based on Biological Design Principles |
Eglin Air Force Base |
FL |
|
13.45.04.B7894 |
AF STFP |
Lasers, Sensors, and Quantum Technology |
Eglin Air Force Base |
FL |
|
13.45.04.B8425 |
AF STFP |
Engineered Electromagnetic Materials, Metamaterials, Light-Matter Interactions, Subwavelength Photonics |
Eglin Air Force Base |
FL |
|
13.45.04.B8462 |
AF STFP |
Guidance and Control Strategies for Adaptive Morphing Unmanned Air Systems in Complex Environments |
Eglin Air Force Base |
FL |
|
13.45.04.B8465 |
AF STFP |
Next-Generation Computational Methods for Scalable Computing |
Eglin Air Force Base |
FL |
|
13.45.04.C0100 |
AF STFP |
Robust GPS-denied Single and Multi-agent (Cooperative) Navigation |
Eglin Air Force Base |
FL |
|
13.45.04.C0225 |
AF STFP |
Heterogeneous Teaming for Target Search and Tracking |
Eglin Air Force Base |
FL |
|
13.45.04.C0801 |
AF STFP |
Machine Learning for Computational Fluid Dynamics and Heat Transfer |
Eglin Air Force Base |
FL |
|
13.45.05.B7454 |
AF STFP |
Agile Munition Vehicle Sciences |
Eglin Air Force Base |
FL |
|
26.03.43.C0172 |
NOAA |
Stock Assessment / Ecosystem-based Approaches to Fishery Management |
Miami |
FL |
|
26.03.43.C0478 |
NOAA |
Marine Mammal Passive Acoustic Monitoring, Ecology, and Conservation |
Miami |
FL |
|
26.51.00.B6308 |
NOAA |
Nutrient Dynamics in the Oceans |
Miami |
FL |
|
26.51.00.B8111 |
NOAA |
Tropical Ocean-Atmosphere Variability and its Impact on Extreme Weather |
Miami |
FL |
|
26.51.00.B8119 |
NOAA |
Inter-Ocean Exchanges and Regional Sinks of Heat, Salt, and Carbon |
Miami |
FL |
|
26.51.00.B8511 |
NOAA |
Inter-Hemispheric Variability of AMOC and its Impacts on Global Monsoon Circulations and Extreme Weather Events |
Miami |
FL |
|
26.51.00.C0474 |
NOAA |
Coral Reef Responses to Global Change |
Miami |
FL |
|
26.51.00.C0784 |
NOAA |
Tropical Cyclones: Physical Processes and Forecast Improvements |
Miami |
FL |
|
26.51.00.C0966 |
NOAA |
Tropical cyclone-ocean interaction |
Miami |
FL |
|
26.03.60.B6062 |
NOAA |
Ecosystem-Based Analysis and Management of Apex Predators |
Panama City |
FL |
|
22.08.04.B6522 |
EPA |
Environmental biomonitoring using metabolomics |
Athens |
GA |
|
97.15.02.C0846 |
AMRMC |
Discovery of natural phages in Eastern EUCOM region to target MDR ESKAPE pathogens for wound infection countermeasure development |
Tbilisi |
GEORGIA |
|
50.64.62.B1712 |
NIST |
Separation Science Techniques for Trace Organic Analysis |
Waimanalo |
HI |
|
50.64.62.B4794 |
NIST |
Analytical Methods Development for the Determination of Anthropogenic Contaminants in the Marine Environment |
Waimanalo |
HI |
|
50.64.62.C0219 |
NIST |
Chemical Measurement Services for Assessing Plastic Marine Debris Pollution |
Waimanalo |
HI |
|
39.01.02.B0743 |
CCDC SC |
Magnetic-Resonance Imaging and Spectroscopic Determinations of Food Matrices |
Natick |
MA |
|
39.01.02.B7156 |
CCDC SC |
The Enhanced Quasi-Chemical Model for Bacterial Spore Decontamination by High Pressure |
Natick |
MA |
|
39.01.02.B7157 |
CCDC SC |
Novel Chlorine Dioxide Technologies |
Natick |
MA |
|
26.03.38.B6559 |
NOAA |
Advanced Sampling Technologies in the Northwest Atlantic |
Woods Hole |
MA |
|
11.01.01.B7072 |
CCDC CBC |
Protein Toxin Structure and Conformational Dynamics Associated with Ligand and Macromolecule Binding |
Aberdeen Proving Ground |
MD |
|
11.01.01.B8244 |
CCDC CBC |
Novel Material Design for the Mitigation of Chemical Threats and Protection of the Warfighter |
Aberdeen Proving Ground |
MD |
|
11.01.01.C0026 |
CCDC CBC |
Synthetic Biology for Advancing Materials Science |
Aberdeen Proving Ground |
MD |
|
11.01.01.C0238 |
CCDC CBC |
In Silico Prediction of Chemical Toxicity |
Aberdeen Proving Ground |
MD |
|
11.01.01.C0274 |
CCDC CBC |
Electrophysiological Characterization of Ion Channel Modulating Substances |
Aberdeen Proving Ground |
MD |
|
11.01.01.C0275 |
CCDC CBC |
In Vitro Models of Organ Toxicity |
Aberdeen Proving Ground |
MD |
|
11.01.01.C0559 |
CCDC CBC |
Communicating Science to a K-12 STEM Audience |
Aberdeen Proving Ground |
MD |
|
11.01.01.C0737 |
CCDC CBC |
Composites from Polymers and Metal-Organic Frameworks for Novel Personal Protective Equipment |
Aberdeen Proving Ground |
MD |
|
11.01.01.C0738 |
CCDC CBC |
Development of Novel Materials for the Mitigation of Chemical Threats and Enhanced Aerosolized Obscuration |
Aberdeen Proving Ground |
MD |
|
11.01.01.C0873 |
CCDC CBC |
Controlling and Tuning Chemical Transport in Polymeric Materials and Composites for Protection and Hazard Mitigation |
Aberdeen Proving Ground |
MD |
|
11.01.04.B0034 |
CCDC CBC |
Bio-inspired Optical and Spectral Materials |
Aberdeen Proving Ground |
MD |
|
11.01.04.B4464 |
CCDC CBC |
Biological and Chemical Recognition and Response |
Aberdeen Proving Ground |
MD |
|
11.01.04.B4587 |
CCDC CBC |
Synthetic Biology and Paper-based Gene Switches for Detection in Austere Environments |
Aberdeen Proving Ground |
MD |
|
11.01.04.B4623 |
CCDC CBC |
Elucidation of Virulence Mechanisms and Detection of Pathogens |
Aberdeen Proving Ground |
MD |
|
11.01.04.C0311 |
CCDC CBC |
Deployable and Automated Biological Assay for Biological Detection |
Aberdeen Proving Ground |
MD |
|
11.01.04.C0373 |
CCDC CBC |
Multiomic Mass Spectrometry |
Aberdeen Proving Ground |
MD |
|
11.01.04.C0392 |
CCDC CBC |
Bio-Manufacturing of metabolically engineered cells using synthetic biology |
Aberdeen Proving Ground |
MD |
|
11.01.04.C0560 |
CCDC CBC |
Cell-free Biomanufacturing |
Aberdeen Proving Ground |
MD |
|
11.01.07.B8201 |
CCDC CBC |
Advanced Vibrational Spectroscopic Analysis for Chemical, Biological, Energetic, and Narcotic Materials |
Aberdeen Proving Ground |
MD |
|
97.25.10.B3487 |
AMRMC |
Brain Neurotransmitters |
Aberdeen Proving Ground |
MD |
|
97.25.10.B7179 |
AMRMC |
Assessment of chemical-induced seizure, neurodegeneration and neuroinflammation: efficacy of medical countermeasures |
Aberdeen Proving Ground |
MD |
|
36.01.00.C0509 |
NSA |
Basic and Applied Novel Materials and Devices Research |
College Park |
MD |
|
36.01.00.C0511 |
NSA |
2D Materials and Devices for High Performance Computing |
College Park |
MD |
|
36.01.00.C0514 |
NSA |
Epitaxial Materials for Quantum Information Science |
College Park |
MD |
|
36.01.00.C0523 |
NSA |
Integrated Photonic Devices for High Performance Computing Interconnects |
College Park |
MD |
|
36.01.00.C0524 |
NSA |
Integrated Photonic Transducers |
College Park |
MD |
|
36.01.00.C0593 |
NSA |
Novel Digital Superconducting Logic |
College Park |
MD |
|
36.01.00.C0748 |
NSA |
Antiferromagnetic Spintronics for High-Performance Computing |
College Park |
MD |
|
97.20.00.B3460 |
AMRMC |
Molecular Virology - Vaccine development and correlates of protection |
Fort Detrick |
MD |
|
97.20.00.B3474 |
AMRMC |
Aerobiology |
Fort Detrick |
MD |
|
97.20.00.B4228 |
AMRMC |
Respiratory Immunology |
Fort Detrick |
MD |
|
97.20.00.B5410 |
AMRMC |
Hantavirus and Orthopoxvirus Countermeasures |
Fort Detrick |
MD |
|
97.20.00.B7426 |
AMRMC |
Viral Pathogenesis and Animal Models |
Fort Detrick |
MD |
|
97.20.00.B7865 |
AMRMC |
Dissecting the Immunological Response against Extremely Dangerous Pathogens |
Fort Detrick |
MD |
|
97.20.00.B8047 |
AMRMC |
Omics-based System Level Approaches to Investigate Biological Consequences of Bacterial and Viral Infection and Therapeutics at the Molecular Level |
Fort Detrick |
MD |
|
97.20.00.B8095 |
AMRMC |
Molecular Pathogenesis of Yersinia pestis, Francisella tularensis, and Burkholderia |
Fort Detrick |
MD |
|
97.20.00.B8337 |
AMRMC |
Burkholderia pseudomallei Animal Modeling for Future Testing of Novel Medical Countermeasures |
Fort Detrick |
MD |
|
97.20.00.C0189 |
AMRMC |
Protective Immune Response Against Yersinia pestis |
Fort Detrick |
MD |
|
97.20.00.C0743 |
AMRMC |
Development, optimization, and verification of novel molecular diagnostic techniques for the identification of biothreat pathogens |
Fort Detrick |
MD |
|
97.20.00.C0745 |
AMRMC |
Discovery and Development of Therapeutics against New and Emerging viral Pathogens |
Fort Detrick |
MD |
|
97.20.00.C0746 |
AMRMC |
Development and application of immunodiagnostic methods for emerging infectious disease detection and surveillance |
Fort Detrick |
MD |
|
97.20.00.C0763 |
AMRMC |
Host-pathogen interaction of emerging viruses |
Fort Detrick |
MD |
|
97.20.00.C0810 |
AMRMC |
Project Implementation Team - Emerging virus animal model development and countermeasure testing and evaluation |
Fort Detrick |
MD |
|
50.60.01.C0790 |
NIST |
Urban Greenhouse Gas Measurements and Modeling |
Gaithersburg |
MD |
|
50.61.01.B1984 |
NIST |
Neutron Scattering Studies of Superconductivity and Magnetism |
Gaithersburg |
MD |
|
50.61.01.B1988 |
NIST |
Dynamics and Structure of Molecules and Solids |
Gaithersburg |
MD |
|
50.61.01.B1993 |
NIST |
Nanoscale Magnetic Materials |
Gaithersburg |
MD |
|
50.61.01.B1994 |
NIST |
Neutron Reflectometry |
Gaithersburg |
MD |
|
50.61.01.B1995 |
NIST |
Carbon Dioxide Capture, Storage and Utilization |
Gaithersburg |
MD |
|
50.61.01.B2000 |
NIST |
Neutron Scattering Studies of Biological Macromolecules |
Gaithersburg |
MD |
|
50.61.01.B5445 |
NIST |
Neutron Scattering Studies of Quantum Magnetism |
Gaithersburg |
MD |
|
50.61.01.B6278 |
NIST |
Dynamics and Structure of Multiferroic Materials |
Gaithersburg |
MD |
|
50.61.01.B6532 |
NIST |
Hydrogen Storage Materials |
Gaithersburg |
MD |
|
50.61.01.B6535 |
NIST |
Mechanisms and Kinetics of Membrane Protein Crystallization in Self-Assembled Mesophases |
Gaithersburg |
MD |
|
50.61.01.B6536 |
NIST |
New Insights into Shear-Induced Effects in Complex Fluids |
Gaithersburg |
MD |
|
50.61.01.B6867 |
NIST |
Structure and Dynamics of Energy Storage Materials |
Gaithersburg |
MD |
|
50.61.01.B7029 |
NIST |
Fuel Cells and Related Structures and Materials |
Gaithersburg |
MD |
|
50.61.01.B7030 |
NIST |
Structures of Thin-Film Hydrogen-Storage and Hydrogen-Containing Materials |
Gaithersburg |
MD |
|
50.61.01.B7645 |
NIST |
Supramolecular Structures on Lipid Membranes: Understanding Viral Assembly |
Gaithersburg |
MD |
|
50.61.01.B7804 |
NIST |
Neutron Reflectometry Investigations for Energy Production, Conversion, and Storage |
Gaithersburg |
MD |
|
50.61.01.B7995 |
NIST |
Nanoparticle Suspensions for Flow Batteries |
Gaithersburg |
MD |
|
50.61.01.B8035 |
NIST |
Structure and Dynamics of Ferroelectric and Relaxor Materials Studied with Neutron Scattering |
Gaithersburg |
MD |
|
50.61.01.B8467 |
NIST |
Developing Advanced Neutron Reflectometry Techniques to Study Membrane-Associated Proteins |
Gaithersburg |
MD |
|
50.61.01.B8482 |
NIST |
Studying Colloidal Self-Assembly and Porous Solids with Small Angle Neutron Scattering |
Gaithersburg |
MD |
|
50.61.01.B8527 |
NIST |
Mechanistic Investigation of Gas Storage and Separation in Porous Framework Materials Using Neutron Scattering |
Gaithersburg |
MD |
|
50.61.01.B8563 |
NIST |
Lipid Membrane Structure and Dynamics |
Gaithersburg |
MD |
|
50.61.01.C0017 |
NIST |
Crystallographic investigation of novel materials using Neutron and X-ray diffraction and vibrational spectroscopy |
Gaithersburg |
MD |
|
50.61.01.C0032 |
NIST |
New Quantum Materials-Synthesis, Electronic Properties, Neutron Scattering |
Gaithersburg |
MD |
|
50.61.01.C0048 |
NIST |
Nanopores as Single-Molecule Probes of Protein-Lipid Interactions |
Gaithersburg |
MD |
|
50.61.01.C0259 |
NIST |
Computational Investigation of Flexible Metal-Organic Framework Materials for Gas Storage and Separation |
Gaithersburg |
MD |
|
50.61.01.C0300 |
NIST |
Applications of Machine Learning/AI to Neutron Scattering |
Gaithersburg |
MD |
|
50.61.01.C0408 |
NIST |
Structure and Dynamics of Polymer Nanocomposites Investigated by Neutron Scattering |
Gaithersburg |
MD |
|
50.61.01.C0413 |
NIST |
Structure and Dynamics of Colloidal Gel and Glass |
Gaithersburg |
MD |
|
50.61.01.C0423 |
NIST |
Shear Induced Structures in Colloidal Systems |
Gaithersburg |
MD |
|
50.61.01.C0477 |
NIST |
Investigating Time-dependent or Transient Structures of Complex Soft Matter Materials Driven by External Stimuli Using Neutron Scattering |
Gaithersburg |
MD |
|
50.61.01.C0506 |
NIST |
Structure-Property Relationships in Soft Materials and Complex Fluids Investigated with Neutron Scattering |
Gaithersburg |
MD |
|
50.61.01.C0675 |
NIST |
Computational Investigation of Carbon Capture Materials |
Gaithersburg |
MD |
|
50.61.01.C0836 |
NIST |
Studying the structures and interactions of proteins and biomacromolecules in solutions using scattering techniques |
Gaithersburg |
MD |
|
50.63.21.C0659 |
NIST |
Confident Identification of Metabolites in Biological Samples |
Gaithersburg |
MD |
|
50.64.10.B8248 |
NIST |
Dynamic, In Situ and Operando Electron Microscopy for GHz Materials Science |
Gaithersburg |
MD |
|
50.64.10.C0708 |
NIST |
Machine learning on facility-scale data and autonomous electron microscopy |
Gaithersburg |
MD |
|
50.64.21.B1819 |
NIST |
The Center for Theoretical and Computational Materials Science |
Gaithersburg |
MD |
|
50.64.21.B1964 |
NIST |
Magnetic Structure of Alloys |
Gaithersburg |
MD |
|
50.64.21.B1981 |
NIST |
Proximal Probe Studies of the Electrode-Electrolyte Interface |
Gaithersburg |
MD |
|
50.64.21.B3954 |
NIST |
Hydration of polymer dielectrics |
Gaithersburg |
MD |
|
50.64.21.B4044 |
NIST |
Advanced Optical Studies of Surfaces and Interfaces |
Gaithersburg |
MD |
|
50.64.21.B4434 |
NIST |
Theory and Simulation of Polymers and Other Soft Materials |
Gaithersburg |
MD |
|
50.64.21.B4440 |
NIST |
Statistical Physics Applied to the Deformation of Metals |
Gaithersburg |
MD |
|
50.64.21.B5584 |
NIST |
Microfluidics for Characterization of Complex Fluids |
Gaithersburg |
MD |
|
50.64.21.B5585 |
NIST |
Nanomechanical Properties of Polymer Thin Films |
Gaithersburg |
MD |
|
50.64.21.B5588 |
NIST |
Small-Angle Scattering of Nanoscale Structures: Critical Dimensions and Materials Properties |
Gaithersburg |
MD |
|
50.64.21.B5602 |
NIST |
Phase Field Modeling Tools and Bridging Length Scales |
Gaithersburg |
MD |
|
50.64.21.B5606 |
NIST |
Spintronics |
Gaithersburg |
MD |
|
50.64.21.B5607 |
NIST |
Magnetic Nanotechnology |
Gaithersburg |
MD |
|
50.64.21.B5612 |
NIST |
Measurements of the Underlying Processes of Metals Deformation |
Gaithersburg |
MD |
|
50.64.21.B5614 |
NIST |
Modeling Metals Deformation at the Nanoscale |
Gaithersburg |
MD |
|
50.64.21.B5946 |
NIST |
Combinatorial Approaches to Intelligent Surfaces by Polymer Grafting |
Gaithersburg |
MD |
|
50.64.21.B6151 |
NIST |
Fundamentals of Charged Macromolecules at Interfaces |
Gaithersburg |
MD |
|
50.64.21.B6276 |
NIST |
Direct Measurement of Multiaxial Yield Surfaces |
Gaithersburg |
MD |
|
50.64.21.B6778 |
NIST |
Spatially Resolved Microstructure of Organic Semiconductors |
Gaithersburg |
MD |
|
50.64.21.B6780 |
NIST |
Organic and Hybrid Photovoltaic Film Architecture |
Gaithersburg |
MD |
|
50.64.21.B6782 |
NIST |
Nanoimprint Lithography Patterning of Functional Materials |
Gaithersburg |
MD |
|
50.64.21.B6790 |
NIST |
Diffusion in Advanced Materials |
Gaithersburg |
MD |
|
50.64.21.B6958 |
NIST |
Magnetic Nanoparticles for Biomedical Applications |
Gaithersburg |
MD |
|
50.64.21.B7259 |
NIST |
Polymers from Renewable Feedstocks for Sustainability |
Gaithersburg |
MD |
|
50.64.21.B7261 |
NIST |
Polymer Dynamics for Energy Storage and Delivery |
Gaithersburg |
MD |
|
50.64.21.B7263 |
NIST |
Structure and Dynamics of Membranes and Membrane Electrode Assemblies for Fuel Cell Applications |
Gaithersburg |
MD |
|
50.64.21.B7320 |
NIST |
Spectroscopic and Microscopic Determination of DNA Wrapping Structures on Carbon Nanotubes |
Gaithersburg |
MD |
|
50.64.21.B7327 |
NIST |
Protein and Surfactant Corona Measurement on Dispersed Carbon Nanotubes |
Gaithersburg |
MD |
|
50.64.21.B7328 |
NIST |
Purified Nanotubes for Intrinsic Property Measurement |
Gaithersburg |
MD |
|
50.64.21.B7361 |
NIST |
Structural Measurements to Enable Photovoltaics |
Gaithersburg |
MD |
|
50.64.21.B7500 |
NIST |
Interface Characterization in Sustainable Composites |
Gaithersburg |
MD |
|
50.64.21.B7643 |
NIST |
Polymer Membranes for Water Purification |
Gaithersburg |
MD |
|
50.64.21.B7654 |
NIST |
Block Copolymer Lithography |
Gaithersburg |
MD |
|
50.64.21.B7663 |
NIST |
Integrating Data and Computational Tools for Advanced Materials Design |
Gaithersburg |
MD |
|
50.64.21.B7735 |
NIST |
Microwave Conductivity of Carbon-Based Nanocomposites |
Gaithersburg |
MD |
|
50.64.21.B7754 |
NIST |
Neutrons for Soft Materials Manufacturing |
Gaithersburg |
MD |
|
50.64.21.B7793 |
NIST |
Characterization of Complex Colloids via Analytical Ultracentrifugation |
Gaithersburg |
MD |
|
50.64.21.B7809 |
NIST |
Multiscale Modeling of Interfacial Environments around Carbon Nanotubes |
Gaithersburg |
MD |
|
50.64.21.B7811 |
NIST |
Structure, Dynamics, and Transport Properties of Confined Polyelectrolytes for Energy Storage and Delivery |
Gaithersburg |
MD |
|
50.64.21.B7890 |
NIST |
Materials Modeling, Characterization, and Design for Plasticity |
Gaithersburg |
MD |
|
50.64.21.B8018 |
NIST |
Physical and Chemical Mechanisms of Single-wall Carbon Nanotube Separations |
Gaithersburg |
MD |
|
50.64.21.B8019 |
NIST |
Organic Phase Separations of Single-wall Carbon Nanotubes |
Gaithersburg |
MD |
|
50.64.21.B8026 |
NIST |
Model Polyelectrolyte Solutions and Complexes |
Gaithersburg |
MD |
|
50.64.21.B8027 |
NIST |
Self-Assembly of Block Copolymers Into Particles and Gels: Model Biomaterials |
Gaithersburg |
MD |
|
50.64.21.B8037 |
NIST |
Finite Element and Crystal Plasticity Modeling for the Development of Lightweighting Materials |
Gaithersburg |
MD |
|
50.64.21.B8063 |
NIST |
Microstructure Evolution Models for Optimizing Metals Additive Manufacturing |
Gaithersburg |
MD |
|
50.64.21.B8065 |
NIST |
Phase-Based Property Data Informatics |
Gaithersburg |
MD |
|
50.64.21.B8083 |
NIST |
First-Principle Based Modeling for Advancing 2D Electronics |
Gaithersburg |
MD |
|
50.64.21.B8104 |
NIST |
Advancing State-of-the-Art Material Phase and Crystallographic Texture Characterization |
Gaithersburg |
MD |
|
50.64.21.B8146 |
NIST |
Theory of Macromolecules and Other Soft Materials at Interfaces |
Gaithersburg |
MD |
|
50.64.21.B8147 |
NIST |
Qualifying and Quantifying Order in Soft Materials |
Gaithersburg |
MD |
|
50.64.21.B8210 |
NIST |
Colloidal Phase Behavior of Carbon Nanotubes under High Concentrations of Polymers and Salts |
Gaithersburg |
MD |
|
50.64.21.B8211 |
NIST |
Chiral Assembly of Chromophores at Nanoscale |
Gaithersburg |
MD |
|
50.64.21.B8224 |
NIST |
Dynamic Mechanical Property Measurements of Metals, Ceramics, and Polymers Using Novel Kolsky Bar Techniques |
Gaithersburg |
MD |
|
50.64.21.B8270 |
NIST |
Physical Models and Characterization of Olefinic Copolymers |
Gaithersburg |
MD |
|
50.64.21.B8284 |
NIST |
Model Polymer Gels and Networks for Rational Sustainable Design |
Gaithersburg |
MD |
|
50.64.21.B8306 |
NIST |
Microstructural Modeling of Additively Manufactured Materials |
Gaithersburg |
MD |
|
50.64.21.B8309 |
NIST |
Processing-Structure-Property Relationships for ICME of Advanced Engineering Alloys |
Gaithersburg |
MD |
|
50.64.21.B8344 |
NIST |
Low-Dimensional Materials for Electronics, Photonics, Energy, and Sensors |
Gaithersburg |
MD |
|
50.64.21.B8470 |
NIST |
Theory and Simulation of Polyelectrolyte Complexation |
Gaithersburg |
MD |
|
50.64.21.B8484 |
NIST |
Polymers Additive Manufacturing and Rheology |
Gaithersburg |
MD |
|
50.64.21.B8556 |
NIST |
X-ray Scattering to Determine Soft Matter Materials Structure |
Gaithersburg |
MD |
|
50.64.21.B8561 |
NIST |
Rheo-Raman Microscopy for Soft Matter |
Gaithersburg |
MD |
|
50.64.21.B8562 |
NIST |
Processing and crystallization of mixed plastics to improve recycling |
Gaithersburg |
MD |
|
50.64.21.B8564 |
NIST |
High Rate Mechanical Properties of Materials |
Gaithersburg |
MD |
|
50.64.21.C0049 |
NIST |
Electrochemical Surface Science of Metal-Electrolyte Interfaces: Theory and Experiment |
Gaithersburg |
MD |
|
50.64.21.C0073 |
NIST |
Polymer Thin Film Structure and Composition |
Gaithersburg |
MD |
|
50.64.21.C0086 |
NIST |
Mechanisms of polyplex formation |
Gaithersburg |
MD |
|
50.64.21.C0165 |
NIST |
Computational Soft Materials |
Gaithersburg |
MD |
|
50.64.21.C0166 |
NIST |
The Materials Genome Initiative for Polymers and Soft Materials |
Gaithersburg |
MD |
|
50.64.21.C0192 |
NIST |
Materials characterization and performance of additively-manufactured alloys |
Gaithersburg |
MD |
|
50.64.21.C0193 |
NIST |
Corrosion Behavior of Additively-Manufactured Alloys |
Gaithersburg |
MD |
|
50.64.21.C0200 |
NIST |
Design, Characterization, and Modeling of Sequence Controlled Polymers |
Gaithersburg |
MD |
|
50.64.21.C0299 |
NIST |
Dielectric and Rheological Characterization of Chiral Cellulose Nanocrystal Polymer Composites |
Gaithersburg |
MD |
|
50.64.21.C0328 |
NIST |
Protein Aggregation |
Gaithersburg |
MD |
|
50.64.21.C0359 |
NIST |
Structure refinement of solid polymers using NMR and computational methods |
Gaithersburg |
MD |
|
50.64.21.C0381 |
NIST |
Modulating quantum structure of 1D materials by covalent surface chemistry |
Gaithersburg |
MD |
|
50.64.21.C0400 |
NIST |
Viscoelastic flow instabilities and turbulence |
Gaithersburg |
MD |
|
50.64.21.C0401 |
NIST |
Mechanical Behavior of Organ-on-Chip |
Gaithersburg |
MD |
|
50.64.21.C0473 |
NIST |
Incorporating Theory and Domain Knowledge into the Machine Learning of Polymeric Systems |
Gaithersburg |
MD |
|
50.64.21.C0483 |
NIST |
Polymer Mechanics, Dynamics, and Transport |
Gaithersburg |
MD |
|
50.64.21.C0513 |
NIST |
Computational Electrochemistry and Dielectric Spectroscopy |
Gaithersburg |
MD |
|
50.64.21.C0572 |
NIST |
Novel Magnetic Materials for Advanced Spin-Based Devices |
Gaithersburg |
MD |
|
50.64.21.C0573 |
NIST |
Spin-orbit Phenomena in Magnetic Thin Films Coupled with Low-Dimensional Materials for Spintronics |
Gaithersburg |
MD |
|
50.64.21.C0584 |
NIST |
Combining Theory, Simulation, Machine Learning, and Autonomous Experiments for Industrial Formulation Discovery |
Gaithersburg |
MD |
|
50.64.21.C0598 |
NIST |
Advanced Imaging and Mechanical Characterization of Polymer Matrix Composite Interfaces |
Gaithersburg |
MD |
|
50.64.21.C0601 |
NIST |
Blood Analogues and Flow Stress Visualization for Medical Device Testing |
Gaithersburg |
MD |
|
50.64.21.C0614 |
NIST |
Carbon Nanotubes for Optical Applications - Directed Assembly, Characterization, and Emergent Properties |
Gaithersburg |
MD |
|
50.64.21.C0643 |
NIST |
Dynamic Atomistic Predictions of Crystalline, Crystal Defect and Liquid Metal Properties |
Gaithersburg |
MD |
|
50.64.21.C0656 |
NIST |
Developing Novel Additive Manufacturing Processing Methods |
Gaithersburg |
MD |
|
50.64.21.C0762 |
NIST |
Polymer Membranes and Sorbents for CO2 Capture |
Gaithersburg |
MD |
|
50.64.21.C0800 |
NIST |
Data-driven materials discovery and design |
Gaithersburg |
MD |
|
50.64.21.C0832 |
NIST |
Identifying Material Behavior from Measurements and Simulations in Advanced Mechanical Testing |
Gaithersburg |
MD |
|
50.64.21.C0917 |
NIST |
EUV Photoresist Chemistry and Structure |
Gaithersburg |
MD |
|
50.64.21.C0935 |
NIST |
Structure, property and performance of high impurity-tolerant metals and alloys |
Gaithersburg |
MD |
|
50.64.21.C0942 |
NIST |
Improving Sorting of Polyolefins for the Circular Economy |
Gaithersburg |
MD |
|
50.64.21.C0951 |
NIST |
Development of a Digital Twin Framework for Metal Additive Manufacturing |
Gaithersburg |
MD |
|
50.64.21.C0952 |
NIST |
Operando Investigation of Electrochemical Interfaces |
Gaithersburg |
MD |
|
50.64.31.B1654 |
NIST |
Microbeam Mass Spectrometry |
Gaithersburg |
MD |
|
50.64.31.B1661 |
NIST |
Submicroscopic Chemical and Physical Characterization of Materials and Particles |
Gaithersburg |
MD |
|
50.64.31.B4039 |
NIST |
Electronic Structure of Organic Interfaces |
Gaithersburg |
MD |
|
50.64.31.B5251 |
NIST |
Computational Studies of Functional Oxide Materials and Devices |
Gaithersburg |
MD |
|
50.64.31.B6246 |
NIST |
Quantitative Modeling of Complex Microanalytical Problems |
Gaithersburg |
MD |
|
50.64.31.B6481 |
NIST |
Atomic-Resolution Chemical Imaging of Individual Nanostructures in an Aberration-Corrected STEM/TEM |
Gaithersburg |
MD |
|
50.64.31.B6766 |
NIST |
Determining Local and Nanoscale Structure in Inorganic Materials |
Gaithersburg |
MD |
|
50.64.31.B6980 |
NIST |
Super-Resolution Chemical Imaging Microscopy |
Gaithersburg |
MD |
|
50.64.31.B7417 |
NIST |
Carbon (CO2) Capture, Selective Gas Sorbent Materials, and Carbon Sequestration |
Gaithersburg |
MD |
|
50.64.31.B7517 |
NIST |
Speciation and Related Chemical Information from X-Ray Absorption Spectroscopy |
Gaithersburg |
MD |
|
50.64.31.B7650 |
NIST |
Forensic Trace Evidence Analysis and Standards |
Gaithersburg |
MD |
|
50.64.31.B7684 |
NIST |
Biological 3D Correlative Microscopy |
Gaithersburg |
MD |
|
50.64.31.B7922 |
NIST |
Compressive Sensing Methods for Electron Microscopy and Microanalysis |
Gaithersburg |
MD |
|
50.64.31.B7958 |
NIST |
Nano- and Atomic-Resolution Electron Microscopy of Three-Dimensional Structures |
Gaithersburg |
MD |
|
50.64.31.B7985 |
NIST |
Adsorption Science to Enable Sustainable Development |
Gaithersburg |
MD |
|
50.64.31.B8070 |
NIST |
Surface Metrology of Nanomaterials |
Gaithersburg |
MD |
|
50.64.31.B8183 |
NIST |
Microstructure of Structural and Functional Ceramics for Additive Manufacturing, Energy Conversion and Storage |
Gaithersburg |
MD |
|
50.64.31.B8187 |
NIST |
Mass Spectrometry Metrology for Trace Detection and Chemical Imaging |
Gaithersburg |
MD |
|
50.64.31.B8238 |
NIST |
Enabling Advanced Functionalities in Photonics using Low-Dimensional Semiconductors |
Gaithersburg |
MD |
|
50.64.31.B8265 |
NIST |
Machine Learning for High Throughput Materials Discovery and Optimization Applications |
Gaithersburg |
MD |
|
50.64.31.B8272 |
NIST |
Elucidating Factors Contributing to Sustainability and Efficacy of Nanomaterials in Complex Systems |
Gaithersburg |
MD |
|
50.64.31.B8291 |
NIST |
Separation of Small Molecules and Polymers through Nanochannels |
Gaithersburg |
MD |
|
50.64.31.B8316 |
NIST |
Computational Studies of Nanoporous Solids |
Gaithersburg |
MD |
|
50.64.31.B8437 |
NIST |
Improving Efficacy through New Measurements and Classical Design |
Gaithersburg |
MD |
|
50.64.31.B8442 |
NIST |
Surface Chemical Imaging of Commercially and Biologically Relevant Materials for Quantitative Analysis |
Gaithersburg |
MD |
|
50.64.31.B8443 |
NIST |
Transport Property Measurements for Semiconductors and Energy Materials |
Gaithersburg |
MD |
|
50.64.31.B8458 |
NIST |
First-Principles Modeling of Electronic Structure and Near-Edge X-Ray Spectroscopy |
Gaithersburg |
MD |
|
50.64.31.B8459 |
NIST |
Four-Dimensional (4D) Scanning Transmission Electron Microscopy |
Gaithersburg |
MD |
|
50.64.31.B8463 |
NIST |
High-Resolution X-Ray Spectroscopy Using Microcalorimeter Detectors |
Gaithersburg |
MD |
|
50.64.31.B8486 |
NIST |
Reclamation of high strength fibers from thermosetting composite materials |
Gaithersburg |
MD |
|
50.64.31.B8487 |
NIST |
Long-Term Performance of Textiles, Nanocomposites, and High Strength Fibers |
Gaithersburg |
MD |
|
50.64.31.B8551 |
NIST |
Point-of-Care Pharmaceutical Manufacturing for Precision Medicine |
Gaithersburg |
MD |
|
50.64.31.B8558 |
NIST |
Machine Learning for Autonomous Genetic Engineering of Microbial Systems |
Gaithersburg |
MD |
|
50.64.31.B8559 |
NIST |
Machine Learning-driven Autonomous Systems for Materials Discovery and Optimization |
Gaithersburg |
MD |
|
50.64.31.C0042 |
NIST |
Advanced Methods for Analysis of Nanomaterial Performance and Reactivity |
Gaithersburg |
MD |
|
50.64.31.C0043 |
NIST |
Advanced Regulatory Science for Nanotechnology |
Gaithersburg |
MD |
|
50.64.31.C0217 |
NIST |
Mass Spectrometry and Chemometrics for Forensic Science |
Gaithersburg |
MD |
|
50.64.31.C0227 |
NIST |
Towards Understanding the Structure and Microstructure Evolution Kinetics of Additive Manufactured Alloys |
Gaithersburg |
MD |
|
50.64.31.C0280 |
NIST |
Characterization of nanocomposites from additive manufacturing |
Gaithersburg |
MD |
|
50.64.31.C0292 |
NIST |
Metrology for Nanomaterial-Based Non-Biological Complex Drugs |
Gaithersburg |
MD |
|
50.64.31.C0293 |
NIST |
Chemical and Physical Metrology for Micro- and Nanoplastics |
Gaithersburg |
MD |
|
50.64.31.C0343 |
NIST |
Ultrafast Materials Measurements |
Gaithersburg |
MD |
|
50.64.31.C0344 |
NIST |
Advanced Forensic Toxicology Measurements through Ambient Ionization Mass Spectrometry |
Gaithersburg |
MD |
|
50.64.31.C0362 |
NIST |
Application of Knowledge Graphs to Materials Science and Engineering |
Gaithersburg |
MD |
|
50.64.31.C0529 |
NIST |
Strengthening Forensic Fire Debris Analysis |
Gaithersburg |
MD |
|
50.64.31.C0530 |
NIST |
Advancing Forensic Seized Drug Analysis |
Gaithersburg |
MD |
|
50.64.31.C0595 |
NIST |
First Principles Materials Modeling and Materials Discovery |
Gaithersburg |
MD |
|
50.64.31.C0621 |
NIST |
Advanced Nanoscale Property Characterization by Atomic Force Microscopy |
Gaithersburg |
MD |
|
50.64.31.C0642 |
NIST |
Separation and quantitative measurement methods for micro- and nanoplastics in complex matrices |
Gaithersburg |
MD |
|
50.64.31.C0666 |
NIST |
Micro- and Nanoplastics Chemical Characterization and Quantification Measurement Science |
Gaithersburg |
MD |
|
50.64.31.C0712 |
NIST |
Positron Annihilation Lifetime Spectroscopy Measurements to Elucidate Porosity of Carbon Capture Materials |
Gaithersburg |
MD |
|
50.64.31.C0716 |
NIST |
Advanced Separation Methods to Facilitate a Circular Economy for Textiles |
Gaithersburg |
MD |
|
50.64.31.C0718 |
NIST |
In-situ characterization by Raman-spectroscopy enhanced instrumented indentation |
Gaithersburg |
MD |
|
50.64.31.C0724 |
NIST |
Nanoscale Strain Measurement for Semiconductors and Advanced Materials |
Gaithersburg |
MD |
|
50.64.31.C0754 |
NIST |
Mass Spectrometry Metrology to Enhance Nuclear Safeguards-related Particle Analysis |
Gaithersburg |
MD |
|
50.64.31.C0795 |
NIST |
High Performance Energy Dispersive Electron Excited X-ray Microanalysis |
Gaithersburg |
MD |
|
50.64.31.C0823 |
NIST |
Synchrotron Characterization of Advanced Manufacturing Processes |
Gaithersburg |
MD |
|
50.64.31.C0872 |
NIST |
In situ characterization of advanced ceramic sintering processes |
Gaithersburg |
MD |
|
50.64.31.C0878 |
NIST |
Scientific machine learning methods for trustable accelerated materials characterization and design |
Gaithersburg |
MD |
|
50.64.31.C0886 |
NIST |
Advancing Drug Detection and Identification for Public Health and Harm Reduction |
Gaithersburg |
MD |
|
50.64.31.C0890 |
NIST |
Autonomous MOF Synthesis for Direct Air Capture Sorbents |
Gaithersburg |
MD |
|
50.64.41.B4242 |
NIST |
Population genetics, molecular evolution and bioinformatics |
Gaithersburg |
MD |
|
50.64.41.B6517 |
NIST |
Screening Cell Response to Tissue Scaffold Properties |
Gaithersburg |
MD |
|
50.64.41.B6740 |
NIST |
Quantitative Flow Cytometry Measurements |
Gaithersburg |
MD |
|
50.64.41.B7203 |
NIST |
Multiplexed Biomolecular Measurements |
Gaithersburg |
MD |
|
50.64.41.B7206 |
NIST |
Microsystems for Massively Multiplexed Molecular Biology |
Gaithersburg |
MD |
|
50.64.41.B7296 |
NIST |
Advanced Methods for Screening Human Stem Cell Function in 3D Tissue Scaffolds |
Gaithersburg |
MD |
|
50.64.41.B7297 |
NIST |
Measuring Cell Viability in Scaffolds |
Gaithersburg |
MD |
|
50.64.41.B7298 |
NIST |
Functional Measurements of Tissue Engineered Retinal Pigment Epithelium |
Gaithersburg |
MD |
|
50.64.41.B7314 |
NIST |
Quantification of Bacteria Colonization on Controlled Surfaces |
Gaithersburg |
MD |
|
50.64.41.B7315 |
NIST |
Protein and Bacterial Biofouling on Medical Devices |
Gaithersburg |
MD |
|
50.64.41.B7316 |
NIST |
Chemical and Structural Spatial Distribution of Biofilms |
Gaithersburg |
MD |
|
50.64.41.B7369 |
NIST |
Metrology for Microbial Community Dynamics |
Gaithersburg |
MD |
|
50.64.41.B7624 |
NIST |
Quantitative Nuclear Magnetic Resonance Measurements for Chemical and Biochemical Applications |
Gaithersburg |
MD |
|
50.64.41.B7641 |
NIST |
Advancing Cell-Based Viral Infectivity Assays: Enhancing Reproducibility and Automation |
Gaithersburg |
MD |
|
50.64.41.B7834 |
NIST |
Measurement Science and Engineering Biology |
Gaithersburg |
MD |
|
50.64.41.B7844 |
NIST |
Precision Medicine Metrology |
Gaithersburg |
MD |
|
50.64.41.B7854 |
NIST |
Living Measurement Systems |
Gaithersburg |
MD |
|
50.64.41.B7956 |
NIST |
Novel Light Scattering Imaging to Measure the Mass of Gene Delivery Particles |
Gaithersburg |
MD |
|
50.64.41.B8005 |
NIST |
Developing Biomarkers for Pluripotency and Differentiation in Live Cells |
Gaithersburg |
MD |
|
50.64.41.B8161 |
NIST |
Single-Cell Force Spectroscopy through AFM for Mechanics and Kinetics of Cell-Materials and Cell-Cell Adhesive Interaction |
Gaithersburg |
MD |
|
50.64.41.B8169 |
NIST |
Mathematical Models for Characterizing Pluripotent Stem Cell Populations |
Gaithersburg |
MD |
|
50.64.41.B8206 |
NIST |
Microbial “Dark Matter” |
Gaithersburg |
MD |
|
50.64.41.B8208 |
NIST |
Measuring Horizontal Gene Transfer (HGT) |
Gaithersburg |
MD |
|
50.64.41.B8223 |
NIST |
Multiplexed Assays for Cell-based Production of Biopharmaceuticals |
Gaithersburg |
MD |
|
50.64.41.B8229 |
NIST |
Tools to Predict the Emergence and Spread of Anti-Microbial Resistance |
Gaithersburg |
MD |
|
50.64.41.B8332 |
NIST |
Development of Hyperspectral Raman Imaging for Biology and Medicine: Optical Platform and Data Mining Methods |
Gaithersburg |
MD |
|
50.64.41.B8352 |
NIST |
Rapid Pathogen Detection |
Gaithersburg |
MD |
|
50.64.41.B8353 |
NIST |
Mixed Pathogen Detection |
Gaithersburg |
MD |
|
50.64.41.B8375 |
NIST |
Engineering Complex Microbial Ecosystems |
Gaithersburg |
MD |
|
50.64.41.B8383 |
NIST |
Design Principles for Advanced Pluripotent Stem Cell Culture |
Gaithersburg |
MD |
|
50.64.41.B8384 |
NIST |
Advanced Imaging Tools to Measure Dynamics of Pluripotency and Differentiation |
Gaithersburg |
MD |
|
50.64.41.B8385 |
NIST |
Toward Optimized Scheduling of Pluripotent Stem Cell Processing |
Gaithersburg |
MD |
|
50.64.41.B8449 |
NIST |
Research in Development of Nuclear Techniques for Elemental Speciation |
Gaithersburg |
MD |
|
50.64.41.B8452 |
NIST |
Mapping Responses in Complex Microbial Systems using Advanced Imaging |
Gaithersburg |
MD |
|
50.64.41.B8571 |
NIST |
Advanced Vibrational Spectroscopy of Higher Order Structures of Protein |
Gaithersburg |
MD |
|
50.64.41.B8574 |
NIST |
Metrology for Epigenetics |
Gaithersburg |
MD |
|
50.64.41.C0094 |
NIST |
Precision Measurements of Cancer Biomarkers for Liquid Biopsies |
Gaithersburg |
MD |
|
50.64.41.C0251 |
NIST |
Improving Measurement Assurance of In Vitro Toxicity Assays |
Gaithersburg |
MD |
|
50.64.41.C0313 |
NIST |
Artificial Intelligence for Genomics Reference Materials |
Gaithersburg |
MD |
|
50.64.41.C0314 |
NIST |
Epigenomics and Transcriptomics Metrology |
Gaithersburg |
MD |
|
50.64.41.C0317 |
NIST |
Genome Assembly Metrology |
Gaithersburg |
MD |
|
50.64.41.C0318 |
NIST |
Cancer Genome Metrology |
Gaithersburg |
MD |
|
50.64.41.C0326 |
NIST |
Analytical Metrology for Quantifying Drug Release Profiles from Nanotechnology-Enabled Medical Products |
Gaithersburg |
MD |
|
50.64.41.C0414 |
NIST |
Analytical Metrology for Production and Characterization of Extracellular Vesicles (EVs) as a Drug Delivery System |
Gaithersburg |
MD |
|
50.64.41.C0605 |
NIST |
Advanced Methods for Measuring Microbial Viability |
Gaithersburg |
MD |
|
50.64.41.C0622 |
NIST |
Measuring Microbial Interaction Networks within Microbiomes |
Gaithersburg |
MD |
|
50.64.41.C0678 |
NIST |
Evaluating Cell Health for Cell Therapy Products |
Gaithersburg |
MD |
|
50.64.41.C0711 |
NIST |
Label-Free Cell Imaging Using Advanced Vibrational Spectroscopy |
Gaithersburg |
MD |
|
50.64.41.C0794 |
NIST |
Advanced Imaging of Biomaterials and Smart Polymers |
Gaithersburg |
MD |
|
50.64.41.C0984 |
NIST |
Microbial Metabolomics |
Gaithersburg |
MD |
|
50.64.51.B5904 |
NIST |
Biopharmaceutical and Membrane Protein Stabilization |
Gaithersburg |
MD |
|
50.64.51.B6483 |
NIST |
The Measurement Science of Clinical Proteomics |
Gaithersburg |
MD |
|
50.64.51.B6643 |
NIST |
Microfluidics and Lab-on-a-Chip Technologies for Controlled Molecular Self-Assembly, Analytical Biochemistry, and Multiplexed Measurements |
Gaithersburg |
MD |
|
50.64.51.B6750 |
NIST |
Hydrogen/Deuterium Exchange Mass Spectrometry of Proteins and Biosimilar Drugs |
Gaithersburg |
MD |
|
50.64.51.B6906 |
NIST |
Enabling Research for Next-Generation Chemical and Biochemical Sensing |
Gaithersburg |
MD |
|
50.64.51.B6978 |
NIST |
Fundamental Studies of Transduction Phenomena for Microscale and Nanoscale Chemical/Biochemical Sensors |
Gaithersburg |
MD |
|
50.64.51.B7662 |
NIST |
Microfluidics for Biotherapeutics Measurements |
Gaithersburg |
MD |
|
50.64.51.B7685 |
NIST |
Analytical Technology for Biopharmaceutical Process and Product Characterization |
Gaithersburg |
MD |
|
50.64.51.B7841 |
NIST |
Numerical Methods in Chemical Spectroscopy and Materials Characterization |
Gaithersburg |
MD |
|
50.64.51.B7843 |
NIST |
Differentiation of Analytical and Biological Variability in Metabolomics using Standard Reference Materials and Multivariate Statistics |
Gaithersburg |
MD |
|
50.64.51.B7942 |
NIST |
In vivo Protein Labeling with Stable Isotopes |
Gaithersburg |
MD |
|
50.64.51.B7943 |
NIST |
Engineering Enzymes for the Biomanufacture of Nucleoside Conjugates |
Gaithersburg |
MD |
|
50.64.51.B7947 |
NIST |
Qualitative and Quantitative Characterization of Clinical Analytes |
Gaithersburg |
MD |
|
50.64.51.B8099 |
NIST |
Development of Technologies to Enable Single Molecule Protein Sequencing |
Gaithersburg |
MD |
|
50.64.51.B8162 |
NIST |
Algorithms for Compound Identification by Mass Spectrometry |
Gaithersburg |
MD |
|
50.64.51.B8182 |
NIST |
Forensic Genetics |
Gaithersburg |
MD |
|
50.64.51.B8254 |
NIST |
Development of Procedures for Increasing the Information Content of the Biomolecular Solution X-ray Scattering Data and Improving the Accuracy of their Structural Interpretation |
Gaithersburg |
MD |
|
50.64.51.B8255 |
NIST |
Determination of Structural Ensembles Describing Conformational Averaging in Proteins and RNA from Solution NMR and X-ray and Neutron Scattering |
Gaithersburg |
MD |
|
50.64.51.B8263 |
NIST |
Clinical Genetics |
Gaithersburg |
MD |
|
50.64.51.B8313 |
NIST |
Analytical Methods Development for Metabolomics |
Gaithersburg |
MD |
|
50.64.51.B8331 |
NIST |
Next Generation Sequencing Analysis of Forensic Markers |
Gaithersburg |
MD |
|
50.64.51.B8453 |
NIST |
Characterization of Protein-based Allergens |
Gaithersburg |
MD |
|
50.64.51.B8485 |
NIST |
High-Resolution Nuclear Magnetic Resonance (NMR) Spectroscopic Measurements for 3D Structural “Finger-Printing” of Biological Therapeutics |
Gaithersburg |
MD |
|
50.64.51.B8536 |
NIST |
Computational Methods for NMR Structural Biology and Biomanufacturing of Protein and Live Cell Therapeutics |
Gaithersburg |
MD |
|
50.64.51.B8557 |
NIST |
Structure-function Studies of Antimicrobial Peptides in Lipid Membranes |
Gaithersburg |
MD |
|
50.64.51.C0041 |
NIST |
Oxidative DNA damage as bioindicator for environmental genotoxicity |
Gaithersburg |
MD |
|
50.64.51.C0267 |
NIST |
Using Artificial Intelligence to Predict Chemistry |
Gaithersburg |
MD |
|
50.64.51.C0394 |
NIST |
Method development for quantifying protein hormones in clinical applications |
Gaithersburg |
MD |
|
50.64.51.C0395 |
NIST |
Advanced computational modeling techniques to enable fast screening of RNA biopharmaceutical products |
Gaithersburg |
MD |
|
50.64.51.C0458 |
NIST |
Structural Fingerprinting of Oligonucleotide Therapeutics |
Gaithersburg |
MD |
|
50.64.51.C0475 |
NIST |
Structural Profiling of mRNA Vaccine and Therapeutic Platform Technologies |
Gaithersburg |
MD |
|
50.64.51.C0485 |
NIST |
Leveraging Artificial Neural Networks for Enhancing GC and LC-MS Metabolomics Data Interpretation and Integration |
Gaithersburg |
MD |
|
50.64.51.C0612 |
NIST |
Accurate Nucleic Acid Measurements for Molecular Diagnostics |
Gaithersburg |
MD |
|
50.64.51.C0631 |
NIST |
Ensuring the Safety of Vaccines and Biologics |
Gaithersburg |
MD |
|
50.64.51.C0658 |
NIST |
Oligonucleotide Analysis by Mass Spectrometry |
Gaithersburg |
MD |
|
50.64.51.C0789 |
NIST |
Creating Computational Techniques to Investigate the Ensemble Structures of Flexible Proteins In Combination with Neutron Scattering Data |
Gaithersburg |
MD |
|
50.64.51.C0818 |
NIST |
Improving Peptide Identification By Making Use of All Levels of Liquid Chromatography-Tandem Mass Spectrometry Analysis |
Gaithersburg |
MD |
|
50.64.51.C0839 |
NIST |
Structural characterization of LNP/mRNA vaccines by combining CryoEM, SAXS, and SANS |
Gaithersburg |
MD |
|
50.64.51.C0899 |
NIST |
Applications in Forensic Proteomics |
Gaithersburg |
MD |
|
50.64.51.C0939 |
NIST |
Structure-function Analysis of Vaccines using solid-state Nuclear Magnetic Resonance |
Gaithersburg |
MD |
|
50.64.51.C0941 |
NIST |
Real-time monitoring of bioreactions, using in-line, low-field, benchtop NMR, to facilitate adaptive control in biotherapeutic manufacturing |
Gaithersburg |
MD |
|
50.64.61.B1641 |
NIST |
Quantitative Spectroscopic Measurements for Climate Science Applications |
Gaithersburg |
MD |
|
50.64.61.B1709 |
NIST |
Analytical Mass Spectrometry for Organics and Biomolecules |
Gaithersburg |
MD |
|
50.64.61.B1711 |
NIST |
Novel Analytical Separation Science Methodology |
Gaithersburg |
MD |
|
50.64.61.B1712 |
NIST |
Separation Science Techniques for Trace Organic Analysis |
Gaithersburg |
MD |
|
50.64.61.B3922 |
NIST |
Diagnostics for Chemical Vapor and Atomic Layer Deposition Processes |
Gaithersburg |
MD |
|
50.64.61.B3932 |
NIST |
Applications of Organic Analytical Chemistry in Forensic Science |
Gaithersburg |
MD |
|
50.64.61.B4792 |
NIST |
Methods and Applications in Ab Initio Thermochemistry |
Gaithersburg |
MD |
|
50.64.61.B4794 |
NIST |
Analytical Methods Development for the Determination of Anthropogenic Contaminants in the Marine Environment |
Gaithersburg |
MD |
|
50.64.61.B5547 |
NIST |
Research in Elemental Speciation of Clinical and Biological Systems |
Gaithersburg |
MD |
|
50.64.61.B6482 |
NIST |
Analytical Chemistry of Nanomaterials |
Gaithersburg |
MD |
|
50.64.61.B6751 |
NIST |
Virtual Measurements from Quantum Chemistry |
Gaithersburg |
MD |
|
50.64.61.B6773 |
NIST |
Computational and Theoretical Approaches for Understanding Complex Fluids |
Gaithersburg |
MD |
|
50.64.61.B6907 |
NIST |
Research in Metallomics |
Gaithersburg |
MD |
|
50.64.61.B6909 |
NIST |
Chemical Metrology of Dietary Supplements |
Gaithersburg |
MD |
|
50.64.61.B6986 |
NIST |
Development of Methods for High-Accuracy Measurements in Complex Chemical and Biological Samples |
Gaithersburg |
MD |
|
50.64.61.B6989 |
NIST |
Depth Profiling Using Neutron Beams |
Gaithersburg |
MD |
|
50.64.61.B7230 |
NIST |
Design, Synthesis, and Characterization of Chromatographic Sorbents |
Gaithersburg |
MD |
|
50.64.61.B7477 |
NIST |
Secondary Organic Aerosol Chemistry |
Gaithersburg |
MD |
|
50.64.61.B7728 |
NIST |
Applications of Quantum Chemistry to Chemical Structure and Reactivity |
Gaithersburg |
MD |
|
50.64.61.B7914 |
NIST |
Measurement Science for Chemical Processes |
Gaithersburg |
MD |
|
50.64.61.B8006 |
NIST |
Macromolecular Separation Science |
Gaithersburg |
MD |
|
50.64.61.B8156 |
NIST |
Determination of Chemical and Microbial Contaminant Profiles in Water |
Gaithersburg |
MD |
|
50.64.61.B8168 |
NIST |
Catching Crooks with Chemistry |
Gaithersburg |
MD |
|
50.64.61.B8325 |
NIST |
Ultra-Sensitive Molecular Spectroscopy for Applications in Atmospheric Chemistry |
Gaithersburg |
MD |
|
50.64.61.B8328 |
NIST |
Time-Resolved Frequency Comb Spectroscopy |
Gaithersburg |
MD |
|
50.64.61.B8431 |
NIST |
Ab Initio Mass Spectrometry |
Gaithersburg |
MD |
|
50.64.61.B8450 |
NIST |
Research in Advanced Concepts for Gamma-Ray Spectrometry |
Gaithersburg |
MD |
|
50.64.61.B8476 |
NIST |
Measurement Science to Promote Water Quality and Health in Aquaculture |
Gaithersburg |
MD |
|
50.64.61.B8477 |
NIST |
Development of Nuclear Analytical Imaging Techniques for Materials Analysis with Spatial and Spectral Specificity |
Gaithersburg |
MD |
|
50.64.61.C0054 |
NIST |
Advances in High Resolution Mass Spectrometry |
Gaithersburg |
MD |
|
50.64.61.C0098 |
NIST |
Uncertainty Analysis for Machine Learning and Optimization Applications |
Gaithersburg |
MD |
|
50.64.61.C0235 |
NIST |
Metabolomics for human health, food quality and safety, and forensic science |
Gaithersburg |
MD |
|
50.64.61.C0249 |
NIST |
Chemical Speciation on Heterogeneous Surfaces and Interfaces |
Gaithersburg |
MD |
|
50.64.61.C0396 |
NIST |
Developing Fundamental Understanding of Separation Science |
Gaithersburg |
MD |
|
50.64.61.C0449 |
NIST |
Computational Self-Assembly of Soft Matter Systems |
Gaithersburg |
MD |
|
50.64.61.C0480 |
NIST |
Development of New Computational Methodologies for Molecular Simulation of Soft Materials |
Gaithersburg |
MD |
|
50.64.61.C0519 |
NIST |
Quantitative Aerosol Metrology for Environmental, Climate and Health Applications |
Gaithersburg |
MD |
|
50.64.61.C0615 |
NIST |
Research in the Measurement Science of Per- and Polyfluoroalkyl Substances |
Gaithersburg |
MD |
|
50.64.61.C0734 |
NIST |
Chemical Metrology of Cannabis Plants and Cannabis-Containing Commercial Products |
Gaithersburg |
MD |
|
50.64.61.C0838 |
NIST |
Measurement Science and Services for Isotope Metallomics |
Gaithersburg |
MD |
|
50.64.61.C0863 |
NIST |
Sorbent Measurements for Direct Air Capture (DAC) of Carbon Dioxide |
Gaithersburg |
MD |
|
50.64.61.C0909 |
NIST |
Theory and Computer Simulation of Soft Materials Using Machine Learning |
Gaithersburg |
MD |
|
50.64.61.C0983 |
NIST |
Adsorption Sciences: Metrology and Innovation |
Gaithersburg |
MD |
|
50.64.61.C0986 |
NIST |
Quantitative Elemental Analysis of Ewaste |
Gaithersburg |
MD |
|
50.65.21.C0562 |
NIST |
Ceramic Additive/Advanced Manufacturing |
Gaithersburg |
MD |
|
50.68.02.B4789 |
NIST |
DNA Transport in Single Nanopores |
Gaithersburg |
MD |
|
50.68.02.B7453 |
NIST |
Inter-spin Distance Measurements in Nanobiomaterials |
Gaithersburg |
MD |
|
50.68.02.B7487 |
NIST |
Quantum and Classical Light-Matter Interactions in Nanophotonic Devices |
Gaithersburg |
MD |
|
50.68.02.B7509 |
NIST |
Localization Microscopy |
Gaithersburg |
MD |
|
50.68.02.B7578 |
NIST |
Structure-Function Determination of Membrane Proteins |
Gaithersburg |
MD |
|
50.68.02.B7727 |
NIST |
Multimodal Transducersfor Nanoscale Sensing, Imaging and Manipulation |
Gaithersburg |
MD |
|
50.68.02.B8072 |
NIST |
Theoretical Nanoscale Biophysics |
Gaithersburg |
MD |
|
50.68.02.B8078 |
NIST |
Resonant Micro and Nanoelectromechanical Systems |
Gaithersburg |
MD |
|
50.68.02.B8225 |
NIST |
Modeling for Quantitative Scanning Electron Microscopy |
Gaithersburg |
MD |
|
50.68.02.B8466 |
NIST |
Measurement and Control of Microfluidic Systems |
Gaithersburg |
MD |
|
50.68.02.B8495 |
NIST |
DNA as a Model for Self-Assembling Nanoscale Systems |
Gaithersburg |
MD |
|
50.68.02.C0078 |
NIST |
Drug Toxicity Measurements with Tissues-on-chips and Microphysiologic Systems |
Gaithersburg |
MD |
|
50.68.02.C0203 |
NIST |
Photonic Engineering for Single Quantum Emitters |
Gaithersburg |
MD |
|
50.68.02.C0271 |
NIST |
Super-resolution Imaging of Single-Molecules as a Tool for Nanoscale Soft Material Measurements |
Gaithersburg |
MD |
|
50.68.02.C0288 |
NIST |
Integrated Microfluidics and Photonics for Chemical and Cellular Measurements |
Gaithersburg |
MD |
|
50.68.02.C0482 |
NIST |
Quantum Transport, Control, and Sensing |
Gaithersburg |
MD |
|
50.68.02.C0526 |
NIST |
Integrated Photonic Interfaces to Free-space Volumes for Miniaturized Atomic and Molecular Optics Systems on a Chip |
Gaithersburg |
MD |
|
50.68.02.C0553 |
NIST |
Single Molecule Biosensors |
Gaithersburg |
MD |
|
50.68.02.C0576 |
NIST |
Optical Frequency Comb Development for Physical Metrology and Spectroscopy |
Gaithersburg |
MD |
|
50.68.02.C0628 |
NIST |
Nanophotonic Enabled Spatiotemporal Control of Light |
Gaithersburg |
MD |
|
50.68.02.C0742 |
NIST |
Traceable atomic force microscope dimensional metrology |
Gaithersburg |
MD |
|
50.68.02.C0805 |
NIST |
Electro-optic frequency combs |
Gaithersburg |
MD |
|
50.68.02.C0912 |
NIST |
Optical metasurfaces for trapped ion quantum computing |
Gaithersburg |
MD |
|
50.68.03.B1737 |
NIST |
Theoretical Condensed Matter Physics |
Gaithersburg |
MD |
|
50.68.03.B4069 |
NIST |
Atomic Scale Characterization and Manipulation |
Gaithersburg |
MD |
|
50.68.03.B4752 |
NIST |
Interface Engineering: Using Surface Chemistry to Impart Desired Properties |
Gaithersburg |
MD |
|
50.68.03.B6418 |
NIST |
Functionalizing Semiconductor Surfaces |
Gaithersburg |
MD |
|
50.68.03.B6810 |
NIST |
Raman Spectroscopy of Carbon Nanostructures |
Gaithersburg |
MD |
|
50.68.03.B6811 |
NIST |
Nanoparticle Engineering, Production, Assembly, and Characterization |
Gaithersburg |
MD |
|
50.68.03.B6812 |
NIST |
Enhanced Raman Spectroscopy of Biological Molecules |
Gaithersburg |
MD |
|
50.68.03.B7333 |
NIST |
Power Electronics Performance and Reliability |
Gaithersburg |
MD |
|
50.68.03.B7674 |
NIST |
Precision Materials for Quantum Devices |
Gaithersburg |
MD |
|
50.68.03.B7877 |
NIST |
Ultrafast Condensed-Phase Dynamics Using Mid-Infrared and Terahertz Spectroscopies |
Gaithersburg |
MD |
|
50.68.03.B8024 |
NIST |
Atom-based Silicon Quantum Electronics for Quantum Computing and Analog Quantum Simulation |
Gaithersburg |
MD |
|
50.68.03.B8034 |
NIST |
Theoretical Condensed Matter Physics |
Gaithersburg |
MD |
|
50.68.03.B8041 |
NIST |
Nanoscale Infrared Spectroscopy (AFM-IR, PTIR) Advances and Applications |
Gaithersburg |
MD |
|
50.68.03.B8134 |
NIST |
Measurements for Resistive Switching Devices |
Gaithersburg |
MD |
|
50.68.03.B8196 |
NIST |
Nanomagnetism-Dynamics |
Gaithersburg |
MD |
|
50.68.03.B8247 |
NIST |
Enriched Silicon Quantum Devices |
Gaithersburg |
MD |
|
50.68.03.B8259 |
NIST |
High Frequency Electrical Metrology for Three-Dimensional Integrated Circuits |
Gaithersburg |
MD |
|
50.68.03.B8273 |
NIST |
Nanoscale Characterization of Photovoltaic Materials and Devices |
Gaithersburg |
MD |
|
50.68.03.B8389 |
NIST |
Solid-State Device Reliability and Resiliency |
Gaithersburg |
MD |
|
50.68.03.B8390 |
NIST |
Physical, Chemical, and Biological Studies using Spin Resonance |
Gaithersburg |
MD |
|
50.68.03.B8456 |
NIST |
Femtosecond Time-Resolved Measurements in Semiconductor Materials |
Gaithersburg |
MD |
|
50.68.03.B8478 |
NIST |
Single Electron Devices for Quantum Information and Metrology in Silicon |
Gaithersburg |
MD |
|
50.68.03.B8479 |
NIST |
Actinic Optical Dimensional Characterization of Deep-Subwavelength Nanostructures |
Gaithersburg |
MD |
|
50.68.03.B8512 |
NIST |
In Situ SEM-Raman Spectromicroscopy of Working Devices and Active Interfaces under Realistic Conditions: in Liquids and Gases |
Gaithersburg |
MD |
|
50.68.03.B8513 |
NIST |
Electron Spectroscopy and Microscopy in Liquids and Gases |
Gaithersburg |
MD |
|
50.68.03.B8528 |
NIST |
Advanced Electronic Structure Measurements of Novel Materials and Devices |
Gaithersburg |
MD |
|
50.68.03.C0285 |
NIST |
Devices, Circuits and Architectures for Neuromorphic Computing |
Gaithersburg |
MD |
|
50.68.03.C0305 |
NIST |
Relating Physics to Performance in Organic Electronic Devices |
Gaithersburg |
MD |
|
50.68.03.C0334 |
NIST |
Femtosecond Time-resolved Optical Measurements in Condensed Matter |
Gaithersburg |
MD |
|
50.68.03.C0419 |
NIST |
Two-Dimensional (2-D) Heterostructure Devices and Twisted Systems |
Gaithersburg |
MD |
|
50.68.03.C0427 |
NIST |
Nanoscale Spectroscopy (AFM-IR, PTIR, STML) for Strongly Correlated Materials at Cryogenic Temperatures |
Gaithersburg |
MD |
|
50.68.03.C0660 |
NIST |
Quantum Error Correction and Fault-Tolerance |
Gaithersburg |
MD |
|
50.68.03.C0739 |
NIST |
Fabrication and Characterization of Active Interfaces Relevant to Wide Band Gap (WBG) Semiconductors Electronics |
Gaithersburg |
MD |
|
50.68.03.C0861 |
NIST |
DUV/EUV Nanoscopy for Characterization of Nanoscale Devices |
Gaithersburg |
MD |
|
50.68.03.C0862 |
NIST |
Physics and applications of high binding energy excitons |
Gaithersburg |
MD |
|
50.68.03.C0892 |
NIST |
High-Frequency Studies of Topological Insulators (TI’s) Including Quantum Anomalous Hall Effect (QAHE) |
Gaithersburg |
MD |
|
50.68.03.C0985 |
NIST |
Integrated Color Center Devices |
Gaithersburg |
MD |
|
50.68.03.C0990 |
NIST |
Experimental studies of quantum anomalous Hall effect devices |
Gaithersburg |
MD |
|
50.68.21.B1796 |
NIST |
Neutron Field Metrology |
Gaithersburg |
MD |
|
50.68.21.B4084 |
NIST |
Fundamental Physics with Cold Neutrons |
Gaithersburg |
MD |
|
50.68.21.B6257 |
NIST |
Neutron Detection and Spectroscopy |
Gaithersburg |
MD |
|
50.68.21.B7563 |
NIST |
Neutron Interferometry and Optics |
Gaithersburg |
MD |
|
50.68.21.B7575 |
NIST |
Medical and Industrial Radiation Research |
Gaithersburg |
MD |
|
50.68.21.B7860 |
NIST |
Neutron Imaging for Materials and Energy Research |
Gaithersburg |
MD |
|
50.68.21.B7950 |
NIST |
Portable Device for Realization of Primary Radioactivity Standards |
Gaithersburg |
MD |
|
50.68.21.B8017 |
NIST |
Absolute Quantitation in Molecular Imaging |
Gaithersburg |
MD |
|
50.68.21.B8118 |
NIST |
Measurement Science for Nuclear Forensics |
Gaithersburg |
MD |
|
50.68.21.B8151 |
NIST |
Atom and Neutron Interferometry Meet Quantum Information Theory |
Gaithersburg |
MD |
|
50.68.21.B8214 |
NIST |
Metrology for Needed Nuclear Structure and Radioactive Decay Data |
Gaithersburg |
MD |
|
50.68.21.C0315 |
NIST |
Decay Energy Spectrometry (DES) Using Transition Edge Sensors (TES) For Measuring Absolute Activity of Radionuclides |
Gaithersburg |
MD |
|
50.68.21.C0345 |
NIST |
Absolute radioactive gas measurements spanning 9 orders of magnitude in activity |
Gaithersburg |
MD |
|
50.68.21.C0494 |
NIST |
Designing Liquid Scintillators for Optimal Light Yield, Pulse Shape Discrimination, and Neutron Sensitivity for Applications in Neutrino Physics |
Gaithersburg |
MD |
|
50.68.21.C0723 |
NIST |
Quantum Sensors for Charged Particle Detection and Neutron Physics |
Gaithersburg |
MD |
|
50.68.21.C0736 |
NIST |
Advanced X-ray Fundamental Parameters |
Gaithersburg |
MD |
|
50.68.21.C0831 |
NIST |
Inkjet fabrication of phantoms for autoradiography and medical imaging |
Gaithersburg |
MD |
|
50.68.21.C0918 |
NIST |
Using Neutron Interferometry to Measure Material Structure and Probe New Physics |
Gaithersburg |
MD |
|
50.68.31.B7380 |
NIST |
MEMS-Based Scanning Probe Microscopy |
Gaithersburg |
MD |
|
50.68.31.B7582 |
NIST |
Advanced Ballistics Identification |
Gaithersburg |
MD |
|
50.68.31.B7785 |
NIST |
Nanoelectronic-Based Manipulation and Measurement Tools for Biological Applications |
Gaithersburg |
MD |
|
50.68.31.B8219 |
NIST |
Dimensioning Newton's Constant: Subpicometer Displacement Interferometry, Submicrometer Mechanical Metrology |
Gaithersburg |
MD |
|
50.68.31.B8326 |
NIST |
Electronic and Optomechanical Measurements of Biomolecules |
Gaithersburg |
MD |
|
50.68.31.B8393 |
NIST |
MEMS/NEMS Resonators |
Gaithersburg |
MD |
|
50.68.31.C0620 |
NIST |
Integrated Cavity Optomechanics |
Gaithersburg |
MD |
|
50.68.41.B1752 |
NIST |
Laser Cooling and Trapping of Neutral Atoms |
Gaithersburg |
MD |
|
50.68.41.B4399 |
NIST |
Bose Einstein Condensation |
Gaithersburg |
MD |
|
50.68.41.B4400 |
NIST |
Quantum Information and Quantum Optics |
Gaithersburg |
MD |
|
50.68.41.B5237 |
NIST |
Theory of Quantum Computing with Ultracold Neutral Atoms |
Gaithersburg |
MD |
|
50.68.41.B5919 |
NIST |
Atom-based Solid-state Quantum Devices and Simulators |
Gaithersburg |
MD |
|
50.68.41.B6736 |
NIST |
Intrinsic Force Standards Based on Atomic and Molecular Interactions |
Gaithersburg |
MD |
|
50.68.41.B6755 |
NIST |
Engineering Atoms for Fundamental Constants and Atomic Data |
Gaithersburg |
MD |
|
50.68.41.B7322 |
NIST |
Conductivity and Resistivity of Materials |
Gaithersburg |
MD |
|
50.68.41.B7593 |
NIST |
Quantum Electrodynamics and Fundamental Constants |
Gaithersburg |
MD |
|
50.68.41.B7753 |
NIST |
Graphene Metrology for New Intrinsic Quantum Electrical Standards and Device Technologies |
Gaithersburg |
MD |
|
50.68.41.B8007 |
NIST |
Advanced Properties of Single-photon Sources and Detectors |
Gaithersburg |
MD |
|
50.68.41.B8094 |
NIST |
Atomic Physics for Plasma Spectroscopy |
Gaithersburg |
MD |
|
50.68.41.B8101 |
NIST |
Quantum Many-Body Physics, Quantum Optics, and Quantum Information |
Gaithersburg |
MD |
|
50.68.41.B8137 |
NIST |
Quantum-Accurate Waveform Synthesis and Metrology |
Gaithersburg |
MD |
|
50.68.41.B8145 |
NIST |
Quantum Optomechanical Force Metrology |
Gaithersburg |
MD |
|
50.68.41.B8149 |
NIST |
Advanced Instrumentation for Fundamental Electrical Measurements |
Gaithersburg |
MD |
|
50.68.41.B8166 |
NIST |
Quantum Hall Effect in Epitaxial Graphene Monolayers |
Gaithersburg |
MD |
|
50.68.41.B8278 |
NIST |
Micro- and Nano-Optomechanical Systems |
Gaithersburg |
MD |
|
50.68.41.B8286 |
NIST |
Fabry-Perot Interferometry for Accelerometers |
Gaithersburg |
MD |
|
50.68.41.B8321 |
NIST |
Advanced Single-Photon-Detector Technologies for Quantum Communications and Metrology |
Gaithersburg |
MD |
|
50.68.41.B8455 |
NIST |
Optical cavity primary sound measurement |
Gaithersburg |
MD |
|
50.68.41.C0031 |
NIST |
N-Photon Entanglement and N-Photon Detection for Quantum-Based Metrology |
Gaithersburg |
MD |
|
50.68.41.C0037 |
NIST |
Single-Photon Devices for Quantum Information Applications |
Gaithersburg |
MD |
|
50.68.41.C0070 |
NIST |
Discrete Photon Detection |
Gaithersburg |
MD |
|
50.68.41.C0425 |
NIST |
Quantum-Enabled Communications |
Gaithersburg |
MD |
|
50.68.41.C0676 |
NIST |
Single-Photon Detection Systems |
Gaithersburg |
MD |
|
50.68.41.C0681 |
NIST |
Neural Networks in Dynamic Mechanical Metrology |
Gaithersburg |
MD |
|
50.68.41.C0702 |
NIST |
Quantum Biophotonics |
Gaithersburg |
MD |
|
50.68.41.C0703 |
NIST |
Testable Predictions of Superradiance and Related Dicke State Phenomena |
Gaithersburg |
MD |
|
50.68.41.C0975 |
NIST |
Theory of Entangled Pair Generation in Laser-Prepared Systems |
Gaithersburg |
MD |
|
50.68.51.B7533 |
NIST |
Synchrotron Radiation Applications |
Gaithersburg |
MD |
|
50.68.51.B7534 |
NIST |
Metrology for Semiconductor Manufacturing |
Gaithersburg |
MD |
|
50.68.51.B7535 |
NIST |
Measurement Science for Astronomy |
Gaithersburg |
MD |
|
50.68.51.B7536 |
NIST |
Fluid Measurement and Applications |
Gaithersburg |
MD |
|
50.68.51.B7538 |
NIST |
Photometry, Colorimetry, and Solid-State Lighting |
Gaithersburg |
MD |
|
50.68.51.B7540 |
NIST |
Infrared Technology |
Gaithersburg |
MD |
|
50.68.51.B7541 |
NIST |
Ground- and Space-Based Remote Sensing |
Gaithersburg |
MD |
|
50.68.51.B7542 |
NIST |
Optical Properties of Materials |
Gaithersburg |
MD |
|
50.68.51.B7543 |
NIST |
Temperature Measurement and Applications |
Gaithersburg |
MD |
|
50.68.51.B7548 |
NIST |
Next Generation Flow Measurement Standards and Technology |
Gaithersburg |
MD |
|
50.68.51.B7910 |
NIST |
Applications of Computational Optical Imaging Methods |
Gaithersburg |
MD |
|
50.68.51.B8194 |
NIST |
Intraoperative Visualization Tools Using Optical Molecular Imaging |
Gaithersburg |
MD |
|
50.68.51.B8354 |
NIST |
Quantum Nanophotonic Sensor for Precision Metrology |
Gaithersburg |
MD |
|
50.68.51.C0027 |
NIST |
Infrared Detection Using Novel Devices and Materials |
Gaithersburg |
MD |
|
50.68.51.C0034 |
NIST |
Pressure and Vacuum Measurement and Applications |
Gaithersburg |
MD |
|
50.68.51.C0070 |
NIST |
Discrete Photon Detection |
Gaithersburg |
MD |
|
50.68.51.C0233 |
NIST |
3D Thermal Imaging and Control with Magnetic Nano-objects |
Gaithersburg |
MD |
|
50.68.51.C0380 |
NIST |
Miniaturized Cold Atom Sensors |
Gaithersburg |
MD |
|
50.68.51.C0577 |
NIST |
Machine Learning Driven Autonomous Metrology System |
Gaithersburg |
MD |
|
50.68.51.C0630 |
NIST |
Platform for Realizing Integrated Molecule Experiments (PRIME) |
Gaithersburg |
MD |
|
50.68.51.C0645 |
NIST |
Fundamental measurements of the metal additive manufacturing process |
Gaithersburg |
MD |
|
50.68.51.C0661 |
NIST |
Compact Blackbody Rydberg Atom Sensor (CoBRAS) |
Gaithersburg |
MD |
|
50.68.51.C0699 |
NIST |
Refractive Index Properties of Bulk and Nano-scale Materials from VUV to mid-IR |
Gaithersburg |
MD |
|
50.68.51.C0830 |
NIST |
Non-metal fixed points |
Gaithersburg |
MD |
|
50.68.51.C0848 |
NIST |
Quantum Optomechanical Thermodynamic Metrology |
Gaithersburg |
MD |
|
50.68.51.C0887 |
NIST |
Light-Scatter Nanoscopy of Gene Delivery Systems and Complex Bio-Nanoparticles |
Gaithersburg |
MD |
|
50.68.51.C0944 |
NIST |
Measurement Science for Astrophysics and Remote Sensing |
Gaithersburg |
MD |
|
50.68.51.C0988 |
NIST |
Deployable Doppler Broadening Thermometry |
Gaithersburg |
MD |
|
50.69.81.B8410 |
NIST |
Noise Thermometry |
Gaithersburg |
MD |
|
50.73.11.B4445 |
NIST |
Characterization of Interfaces and Interphases in Polymeric Material Systems |
Gaithersburg |
MD |
|
50.73.11.B5279 |
NIST |
Service Life Prediction of Polymeric Materials and Systems |
Gaithersburg |
MD |
|
50.73.11.B5285 |
NIST |
Fundamental Studies of Polymer Mechanical Properties and Adhesion |
Gaithersburg |
MD |
|
50.73.11.B6281 |
NIST |
Prevention of Progressive Structural Collapse |
Gaithersburg |
MD |
|
50.73.11.B7075 |
NIST |
Computational Modeling of Progressive Structural Failure and Collapse |
Gaithersburg |
MD |
|
50.73.11.B7171 |
NIST |
Mechanical Properties of Polymers, Cementitious Materials, Composite Construction Materials |
Gaithersburg |
MD |
|
50.73.11.B7917 |
NIST |
Rheological Measurements of Cementitious Materials |
Gaithersburg |
MD |
|
50.73.11.B7997 |
NIST |
Experimental and Numerical Assessment of Degrading Reinforced Concrete Structures |
Gaithersburg |
MD |
|
50.73.11.B8155 |
NIST |
Community Resilience |
Gaithersburg |
MD |
|
50.73.11.B8402 |
NIST |
Hydrodynamicist; Coastal Engineer |
Gaithersburg |
MD |
|
50.73.11.B8426 |
NIST |
Microscopic and Spectroscopic Characterization in Engineered Polymeric Materials |
Gaithersburg |
MD |
|
50.73.11.B8494 |
NIST |
Community Resilience - Planning Guidance, Infrastructure Design and Performance |
Gaithersburg |
MD |
|
50.73.11.C0052 |
NIST |
Analysis, Modeling, and Simulation for Performance-Based Seismic Engineering |
Gaithersburg |
MD |
|
50.73.11.C0169 |
NIST |
Improving Functional Recovery of Buildings and Infrastructure Systems |
Gaithersburg |
MD |
|
50.73.11.C0406 |
NIST |
Testing and Analysis of Structural Systems with Enhanced Robustness |
Gaithersburg |
MD |
|
50.73.11.C0415 |
NIST |
Wind Hazard Characterization and Building Performance Evaluation for Hurricane Maria |
Gaithersburg |
MD |
|
50.73.11.C0498 |
NIST |
Performance-based Design for Structures in Fire |
Gaithersburg |
MD |
|
50.73.11.C0581 |
NIST |
Durability of fiber-reinforced polymer composite retrofits used in buildings and infrastructure |
Gaithersburg |
MD |
|
50.73.11.C0687 |
NIST |
Community Resilience -- Systems modeling |
Gaithersburg |
MD |
|
50.73.11.C0689 |
NIST |
Community Resilience Metrics |
Gaithersburg |
MD |
|
50.73.11.C0722 |
NIST |
Low-Damage Earthquake-Resistant Structures |
Gaithersburg |
MD |
|
50.73.21.B8164 |
NIST |
Investigations into Indoor Air Chemistry and Exposure |
Gaithersburg |
MD |
|
50.73.21.B8271 |
NIST |
Burning Velocity Measurement and Predictive Methods for Marginally Flammable Refrigerants |
Gaithersburg |
MD |
|
50.73.21.B8395 |
NIST |
Building Energy and Environmental Impacts |
Gaithersburg |
MD |
|
50.73.21.B8433 |
NIST |
Modeling and Measuring Indoor Air Quality in High-Performance Buildings |
Gaithersburg |
MD |
|
50.73.21.C0320 |
NIST |
Improving Control of Building Mechanical Services Using Embedded Intelligence and Sensors |
Gaithersburg |
MD |
|
50.73.21.C0428 |
NIST |
Luminescence-based Imaging Techniques for Photovoltaics |
Gaithersburg |
MD |
|
50.73.21.C0786 |
NIST |
Advanced Control Systems in Commercial HVAC Equipment in the Intelligent Building Agents Laboratory |
Gaithersburg |
MD |
|
50.73.31.B3966 |
NIST |
Large Eddy Simulation of Fires and Combustion Systems |
Gaithersburg |
MD |
|
50.73.31.B4446 |
NIST |
Fire Dynamics and Fire Protection Engineering |
Gaithersburg |
MD |
|
50.73.31.B7100 |
NIST |
Flammability and Per- and Polyfluoroalkyl Substance Research |
Gaithersburg |
MD |
|
50.73.31.B7173 |
NIST |
High-performance Computing and Data Visualization for the NIST Fire Dynamics Simulator |
Gaithersburg |
MD |
|
50.73.31.B7175 |
NIST |
Full Scale Enclosure Fire Measurements at the NIST Large Fire Laboratory |
Gaithersburg |
MD |
|
50.73.31.B8086 |
NIST |
Full-Scale Testing of Structural Concrete at the National Fire Research Laboratory |
Gaithersburg |
MD |
|
50.73.31.B8195 |
NIST |
Measurement Science for Fire Research |
Gaithersburg |
MD |
|
50.73.31.C0531 |
NIST |
Thermal, Flow, and Particle Characterization in Fire Environments |
Gaithersburg |
MD |
|
50.73.31.C0710 |
NIST |
Artificial Intelligence and Smart Fire Fighting |
Gaithersburg |
MD |
|
50.73.31.C0765 |
NIST |
Material Flammability, Ignitability, and Fire Growth |
Gaithersburg |
MD |
|
50.73.51.B7870 |
NIST |
Measurement Science for Additive Manufacturing |
Gaithersburg |
MD |
|
50.73.51.B8258 |
NIST |
Augmented Intelligence for Semiconductor Manufacturing |
Gaithersburg |
MD |
|
50.73.51.C0072 |
NIST |
Measurement Science for Manufacturing Robotic Systems |
Gaithersburg |
MD |
|
50.73.51.C0902 |
NIST |
Augmented Intelligence for Manufacturing Systems |
Gaithersburg |
MD |
|
50.73.51.C0992 |
NIST |
In-process Monitoring and Quality Control of Metals Additive Manufacturing |
Gaithersburg |
MD |
|
50.73.61.C0535 |
NIST |
Applied Economics Community Resilience Modeling |
Gaithersburg |
MD |
|
50.77.11.B4449 |
NIST |
Mathematical Modeling of Magnetic Systems |
Gaithersburg |
MD |
|
50.77.11.B4450 |
NIST |
Applied Optimization and Simulation |
Gaithersburg |
MD |
|
50.77.11.B4825 |
NIST |
Scientific Datamining |
Gaithersburg |
MD |
|
50.77.11.B6541 |
NIST |
Quantum communication |
Gaithersburg |
MD |
|
50.77.11.B6663 |
NIST |
Immersive Visualization |
Gaithersburg |
MD |
|
50.77.11.B7281 |
NIST |
Standardizing of Measurements on Medical Images |
Gaithersburg |
MD |
|
50.77.11.B7430 |
NIST |
Complex Systems and Networks: Performance, Control, and Security |
Gaithersburg |
MD |
|
50.77.11.B7763 |
NIST |
Real-time Quantitative Visualization |
Gaithersburg |
MD |
|
50.77.11.B8287 |
NIST |
Modeling Complex Microstructures |
Gaithersburg |
MD |
|
50.77.11.B8345 |
NIST |
Quantum Frequency Conversion for Hybrid Quantum Networks |
Gaithersburg |
MD |
|
50.77.11.C0035 |
NIST |
Quantum Information and Cryptography, and Machine Learning |
Gaithersburg |
MD |
|
50.77.11.C0256 |
NIST |
Mathematical Modeling, Analysis, and Uncertainty Quantification |
Gaithersburg |
MD |
|
50.77.11.C0297 |
NIST |
Validated Computation of Special Functions: DLMF Standard Reference Tables on Demand |
Gaithersburg |
MD |
|
50.77.11.C0388 |
NIST |
Autonomous Control of Quantum Systems |
Gaithersburg |
MD |
|
50.77.11.C0669 |
NIST |
Optical Quantum Metrology |
Gaithersburg |
MD |
|
50.77.11.C0672 |
NIST |
Quantum Network Testbeds |
Gaithersburg |
MD |
|
50.77.11.C0761 |
NIST |
Mathematical Modeling and Simulation |
Gaithersburg |
MD |
|
50.77.11.C0764 |
NIST |
Quantum and classical error correction |
Gaithersburg |
MD |
|
50.77.11.C0797 |
NIST |
Autonomous tuning for high-fidelity operations of silicon spin qubits |
Gaithersburg |
MD |
|
50.77.11.C0860 |
NIST |
Applied Mathematics of Soft, Fluid, and Active Matter |
Gaithersburg |
MD |
|
50.77.21.B7382 |
NIST |
Indoor Localization and Tracking |
Gaithersburg |
MD |
|
50.77.21.B8052 |
NIST |
Robust Inter-Domain Routing |
Gaithersburg |
MD |
|
50.77.21.B8519 |
NIST |
Next Generation Wireless Networks |
Gaithersburg |
MD |
|
50.77.31.B7613 |
NIST |
Public Key Cryptography and Applications |
Gaithersburg |
MD |
|
50.77.31.B7615 |
NIST |
Lightweight Cryptography for Resource Constrained Applications |
Gaithersburg |
MD |
|
50.77.31.C0020 |
NIST |
Access Control (Authorization) Systems |
Gaithersburg |
MD |
|
50.77.31.C0556 |
NIST |
Cryptography Through the Lens of Quantum Information Science |
Gaithersburg |
MD |
|
50.77.51.B7525 |
NIST |
Advancing Health Information Technology |
Gaithersburg |
MD |
|
50.77.51.B7526 |
NIST |
Testing the Health Care Information Infrastructure |
Gaithersburg |
MD |
|
50.77.51.B7527 |
NIST |
Computational Metrology for Systems Biology and Medicine |
Gaithersburg |
MD |
|
50.77.51.B7528 |
NIST |
Standards and Algorithms for Enhancing Quality in Medical Imaging |
Gaithersburg |
MD |
|
50.77.51.B7529 |
NIST |
Research in Cyber-Physical Systems |
Gaithersburg |
MD |
|
50.77.51.B7872 |
NIST |
Models and Protocols for Accelerated Simulations of Molecular Interactions and Dynamics |
Gaithersburg |
MD |
|
50.77.51.B7916 |
NIST |
Mathematical Foundations for System Interoperability |
Gaithersburg |
MD |
|
50.77.51.B7982 |
NIST |
Enabling Science from Big Microscopy Image Data |
Gaithersburg |
MD |
|
50.77.51.C0374 |
NIST |
Computational Metrology for Neutron Interferometric Microscopy |
Gaithersburg |
MD |
|
50.77.51.C0391 |
NIST |
Generating Ontologies from Domain Corpora using Artificial Intelligence Techniques |
Gaithersburg |
MD |
|
50.77.51.C0802 |
NIST |
Explainable Artificial Intelligence |
Gaithersburg |
MD |
|
50.77.61.C0058 |
NIST |
Statistical Methods for Extreme Values |
Gaithersburg |
MD |
|
50.77.61.C0230 |
NIST |
Statistical Learning in Functional Data and 3d Imaging |
Gaithersburg |
MD |
|
26.13.01.C0973 |
NOAA |
Ocean Acidification Data Synthesis: Understanding human community vulnerability and resiliency to ocean acidification to inform viable adaptation and mitigation measures |
Silver Spring |
MD |
|
26.13.01.C0977 |
NOAA |
Ocean Acidification Data Synthesis: A broad-scale analysis of ocean carbon observing data to understand ecosystem change across United States Large Marine Ecosystem |
Silver Spring |
MD |
|
26.13.01.C0978 |
NOAA |
Ocean Acidification Data Synthesis: Comprehensive understanding of ecosystem and species sensitivity to ocean acidification and other stressors across United States Large Marine Ecosystems |
Silver Spring |
MD |
|
26.13.01.C0981 |
NOAA |
Marine Carbon Dioxide Removal Data Synthesis: analysis of novel ocean data to inform idealized field research design |
Silver Spring |
MD |
|
97.15.03.B3674 |
AMRMC |
Mechanisms, Sequelae, and Interventions in Brain Injury |
Silver Spring |
MD |
|
97.15.03.B7820 |
AMRMC |
Science Education Research |
Silver Spring |
MD |
|
97.15.03.C0923 |
AMRMC |
Bioethics |
Silver Spring |
MD |
|
97.15.03.C0947 |
AMRMC |
Responsible Conduct of Research |
Silver Spring |
MD |
|
97.15.05.B8049 |
AMRMC |
Systematics and Evolution of Medically Important Arthropods |
Silver Spring |
MD |
|
97.15.05.C0130 |
AMRMC |
Taxonomy, Systematics, Genetics and Genomics of Insect Vectors |
Silver Spring |
MD |
|
97.15.06.C0112 |
AMRMC |
Psychological Health and Resilience in Military Psychology |
Silver Spring |
MD |
|
97.15.06.C0950 |
AMRMC |
Training Unit Leaders and Helpers in Basic Behavioral Health Skills |
Silver Spring |
MD |
|
97.15.08.C0644 |
AMRMC |
Measurement of Environmental Exposures in Military Training and Associated Effects |
Silver Spring |
MD |
|
97.15.09.C0623 |
AMRMC |
Trauma and Wound Infection Research |
Silver Spring |
MD |
|
97.15.12.B8285 |
AMRMC |
Immunology and Systems Biology of Dengue Virus Vaccination and Natural Infections |
Silver Spring |
MD |
|
97.15.12.C0430 |
AMRMC |
Infectious Disease Genomics Viruses |
Silver Spring |
MD |
|
97.15.12.C0521 |
AMRMC |
Molecular Virology and Vaccinology |
Silver Spring |
MD |
|
97.15.12.C0586 |
AMRMC |
Mosquito Factors to Improve Models and Therapeutics for Mosquito-Borne Viruses |
Silver Spring |
MD |
|
97.15.30.B6759 |
AMRMC |
Malaria Immunology |
Silver Spring |
MD |
|
97.15.51.C0262 |
AMRMC |
Mitochondria Targeted Neuroprotection Therapeutics for Traumatic Brain Injury |
Silver Spring |
MD |
|
97.15.52.B4509 |
AMRMC |
Strategies for Maintaining Neurobehavioral Effectiveness during Chronic Sleep Restriction and Total Sleep Deprivation |
Silver Spring |
MD |
|
97.15.52.B6954 |
AMRMC |
Performance Assessment, Preclinical Drug Development, and Chemical Evaluation |
Silver Spring |
MD |
|
97.15.52.C0181 |
AMRMC |
Developing Treatment Strategies to Promote Recovery from Traumatic Stress |
Silver Spring |
MD |
|
97.15.52.C0457 |
AMRMC |
Systems Biology for Diseases of Military Relevance |
Silver Spring |
MD |
|
97.15.52.C0780 |
AMRMC |
Operational Research Team - Sleep and Human Performance Research Scientist |
Silver Spring |
MD |
|
26.65.00.B5362 |
NOAA |
Habitat Mediated Species Interactions and Food Web Disruptions in Coastal Ecosystems |
Ann Arbor |
MI |
|
26.65.00.B6902 |
NOAA |
Ice Climatologist and Climate Modeler |
Ann Arbor |
MI |
|
22.07.03.B8296 |
EPA |
Incorporating Autonomous Underwater Gliders into an Intensive Observational Campaign on Lake Superior |
Duluth |
MN |
|
22.07.03.C0349 |
EPA |
Revitalization of Great Lakes Waterfront Communities |
Duluth |
MN |
|
64.17.01.B3083 |
NRL |
Modeling of Ocean Surface Waves |
Stennis Space Center |
MS |
|
64.17.01.B3085 |
NRL |
Numerical Tide Modeling |
Stennis Space Center |
MS |
|
64.17.01.B3633 |
NRL |
Regional and Coupled Modeling Systems |
Stennis Space Center |
MS |
|
64.17.01.B4364 |
NRL |
Global Predictive Seafloor Modeling; Geoacoustics, Sediment Physics, Gas, and Gas Hydrates |
Stennis Space Center |
MS |
|
64.17.01.B6114 |
NRL |
Ocean Data Assimilation for Operational Ocean Forecasts |
Stennis Space Center |
MS |
|
64.17.01.B6579 |
NRL |
Advanced Data Assimilation into Ocean Models |
Stennis Space Center |
MS |
|
64.17.01.B6644 |
NRL |
Coupled Bio-Optical-Physical Modeling, Data Assimilation, and Adaptive Sampling |
Stennis Space Center |
MS |
|
64.17.01.B6662 |
NRL |
Field Measurements of Bottom Boundary Layer Processes |
Stennis Space Center |
MS |
|
64.17.01.B7131 |
NRL |
Dynamics of Ocean Fronts and Eddies |
Stennis Space Center |
MS |
|
64.17.01.B7457 |
NRL |
Ocean Ensemble Forecasting |
Stennis Space Center |
MS |
|
64.17.01.B7868 |
NRL |
Microbiologically Influenced Corrosion of Materials in Marine Environments |
Stennis Space Center |
MS |
|
64.17.01.B7899 |
NRL |
Turbulence Resolving Modeling of Coasta Boundary Layerl Processes |
Stennis Space Center |
MS |
|
64.17.01.B8114 |
NRL |
EnKF (Ensemble Kalman Filter) Based Global Ensemble Forecast System Using HYCOM |
Stennis Space Center |
MS |
|
64.17.01.C0087 |
NRL |
Deterministic and Probabilistic Modeling of Nearshore Hydro- and Morphodynamics |
Stennis Space Center |
MS |
|
64.17.01.C0179 |
NRL |
Mixing Processes in the Southwestern Japan/East Sea (MJES) |
Stennis Space Center |
MS |
|
64.17.01.C0209 |
NRL |
Mixing, circulation, and air-sea interaction in the Arabian Sea and Bay of Bengal |
Stennis Space Center |
MS |
|
64.17.01.C0600 |
NRL |
Bio-Optical Linkages to Acoustic Scattering Layers |
Stennis Space Center |
MS |
|
64.17.01.C0720 |
NRL |
Optimization of unmanned observing swarms supporting assimilative ocean forecast systems |
Stennis Space Center |
MS |
|
64.17.01.C0733 |
NRL |
Predicting ocean physics across scales |
Stennis Space Center |
MS |
|
64.17.01.C0749 |
NRL |
Geospatial Machine Learning of Geologic and Geophysical Properties |
Stennis Space Center |
MS |
|
64.17.01.C0775 |
NRL |
Precision assessment of the wide-swath altimetry |
Stennis Space Center |
MS |
|
64.17.01.C0799 |
NRL |
Marginal Sea Upwelling and Tides |
Stennis Space Center |
MS |
|
64.17.01.C0891 |
NRL |
Deep Ocean Bottom Currents in the Northern South China Sea |
Stennis Space Center |
MS |
|
64.17.01.C0898 |
NRL |
Ocean Light and Shadows |
Stennis Space Center |
MS |
|
64.17.01.C0905 |
NRL |
Air-sea fluxes over waves |
Stennis Space Center |
MS |
|
64.17.01.C0907 |
NRL |
Submesoscale Eddy Dynamics |
Stennis Space Center |
MS |
|
64.17.01.C0943 |
NRL |
Sea Ice Modeling |
Stennis Space Center |
MS |
|
64.17.01.C0964 |
NRL |
Process-based modeling of seabed geoacoustics and stability |
Stennis Space Center |
MS |
|
64.17.01.C0982 |
NRL |
Turbulence Modelling and Parameterization |
Stennis Space Center |
MS |
|
26.03.44.B5874 |
NOAA |
Population Ecology of Exploited Marine Resources |
Beaufort |
NC |
|
26.03.44.B7510 |
NOAA |
Ecosystem Approaches to Marine Resource Management |
Beaufort |
NC |
|
26.03.44.B7818 |
NOAA |
Quantitative Fisheries Ecology |
Beaufort |
NC |
|
14.02.00.B4664 |
ARO |
Apis Mellifera |
Durham |
NC |
|
14.02.00.C0103 |
ARO |
Neuromorphic Computing Circuits and Systems Based on Emerging Electronic Devices |
Durham |
NC |
|
14.01.00.B8167 |
ARO |
Tectonics and Glacial Dynamics |
Research Triangle Park |
NC |
|
22.10.08.B0338 |
EPA |
Neurophysiological Toxicology |
Research Triangle Park |
NC |
|
22.10.08.B5114 |
EPA |
Physicochemical Characteristics of Air Pollution Particles and Their Impact on Health |
Research Triangle Park |
NC |
|
26.03.56.B4573 |
NOAA |
Population Ecology of Marine Fishes of the Northeast US |
Highlands |
NJ |
|
13.10.02.B6079 |
AF STFP |
High-Brightness Semiconductor Mid-Infrared and Long-Infrared Laser Development |
Kirtland Air Force Base |
NM |
|
13.10.02.B6932 |
AF STFP |
Advanced Gas Lasers and High-Performance Computing Simulation of Multiphysics |
Kirtland Air Force Base |
NM |
|
13.10.02.B7777 |
AF STFP |
High Power Electromagnetic Interactions in Plasmas and High Temperature Materials |
Kirtland Air Force Base |
NM |
|
13.10.02.C0030 |
AF STFP |
Research in Novel Hybrid Gas Laser Technology and Atmospheric Propagation |
Kirtland Air Force Base |
NM |
|
13.10.02.C0107 |
AF STFP |
Free-Space Quantum Communication |
Kirtland Air Force Base |
NM |
|
13.10.02.C0307 |
AF STFP |
Computational Physics For High-Power Highly Coherent Laser Technology |
Kirtland Air Force Base |
NM |
|
13.10.02.C0331 |
AF STFP |
Advanced Diagnostics for Free-space and other Low Density Plasmas |
Kirtland Air Force Base |
NM |
|
13.10.02.C0432 |
AF STFP |
Ultrashort Pulse Laser Research |
Kirtland Air Force Base |
NM |
|
13.10.02.C0856 |
AF STFP |
Research in High Energy Pulse Fiber Lasers |
Kirtland Air Force Base |
NM |
|
13.10.02.C0929 |
AF STFP |
Optical Material Characterization for Space Domain Awareness |
Kirtland Air Force Base |
NM |
|
13.10.02.C0989 |
AF STFP |
High Power Microwave Antenna Research and Development |
Kirtland Air Force Base |
NM |
|
13.10.03.B0162 |
AF STFP |
High-Power Microwave Source Research |
Kirtland Air Force Base |
NM |
|
13.10.03.C0029 |
AF STFP |
Advanced Computational Plasma Physics Modeling for Next Generation Technologies |
Kirtland Air Force Base |
NM |
|
13.10.03.C0450 |
AF STFP |
Physics of Electron Beam Generation for High Power Electromagnetic Devices |
Kirtland Air Force Base |
NM |
|
13.40.01.B0183 |
AF STFP |
Plasma Spacecraft Interactions |
Kirtland Air Force Base |
NM |
|
13.40.01.B6640 |
AF STFP |
Theoretical Studies of Quantum Transport, Light-Matter Interaction and Ultrafast Carrier-Scattering Dynamics |
Kirtland Air Force Base |
NM |
|
13.40.01.B7197 |
AF STFP |
Resilient Receivers for Multi-Global Navigation Satellite Systems Applications with Artificial Intelligence |
Kirtland Air Force Base |
NM |
|
13.40.01.B7444 |
AF STFP |
Ultra-Reliable-Low-Latency Forward Error Correction for Next Generation GNSS |
Kirtland Air Force Base |
NM |
|
13.40.01.B7445 |
AF STFP |
Advanced Spacecraft Guidance, Navigation, & Control |
Kirtland Air Force Base |
NM |
|
13.40.01.B7497 |
AF STFP |
Spacecraft Materials Properties for Spacecraft Charging |
Kirtland Air Force Base |
NM |
|
13.40.01.B7633 |
AF STFP |
Ionosphere/Magnetosphere Modeling of Wave Propagation or Wave-Particle Interaction |
Kirtland Air Force Base |
NM |
|
13.40.01.B7658 |
AF STFP |
Programmability of Regional Multi-Source Position, Navigation and Timing for Joint-All-Domain Operations |
Kirtland Air Force Base |
NM |
|
13.40.01.B7659 |
AF STFP |
Game-Theoretic Based Decision Support Tools for Persistent Space Threat Interdiction |
Kirtland Air Force Base |
NM |
|
13.40.01.B7835 |
AF STFP |
Blind and Beacon-Less TDMA Scheduling for Ad-Hoc LEO Satellite Communications |
Kirtland Air Force Base |
NM |
|
13.40.01.B7836 |
AF STFP |
Security in Cyber-Physical Networked Systems |
Kirtland Air Force Base |
NM |
|
13.40.01.B7908 |
AF STFP |
Resilient System Controllers for Wideband Global SATCOM |
Kirtland Air Force Base |
NM |
|
13.40.01.B8171 |
AF STFP |
Integrated Position, Navigation and Timing (PNT) over Free Space Optical Satellite Communication Networks |
Kirtland Air Force Base |
NM |
|
13.40.01.B8172 |
AF STFP |
Cooperative Spectrum Sensing with Multi-Dimension Directions |
Kirtland Air Force Base |
NM |
|
13.40.01.B8228 |
AF STFP |
Baseband Diversity Product Approaches for Protected Wideband Satellite Communications |
Kirtland Air Force Base |
NM |
|
13.40.01.B8304 |
AF STFP |
Autonomous Processing Techniques for Applications in Space |
Kirtland Air Force Base |
NM |
|
13.40.01.B8549 |
AF STFP |
Nonlinear Dynamics in Spacecraft Guidance, Navigation, and Control |
Kirtland Air Force Base |
NM |
|
13.40.01.C0061 |
AF STFP |
Enhanced and Assured Radio Frequency Downlinks |
Kirtland Air Force Base |
NM |
|
13.40.01.C0062 |
AF STFP |
Integrating Performance Enhanced Proxies with Bundle Protocols over High Assurance Internet Protocol Encryptions |
Kirtland Air Force Base |
NM |
|
13.40.01.C0063 |
AF STFP |
Topology Formation and Network Coding for Multi-source Multicast Satellite Communications Networks |
Kirtland Air Force Base |
NM |
|
13.40.01.C0064 |
AF STFP |
Relativistic Time Synchronization for Satellite Crosslinks |
Kirtland Air Force Base |
NM |
|
13.40.01.C0065 |
AF STFP |
Onboard Satellite Synchronization for Frequency Hopping Spread Spectrum Waveforms |
Kirtland Air Force Base |
NM |
|
13.40.01.C0291 |
AF STFP |
AI Development for Competitive Space-Based Games |
Kirtland Air Force Base |
NM |
|
13.40.01.C0459 |
AF STFP |
Learning-based Approaches to Resilient Satellite Navigation and Timing |
Kirtland Air Force Base |
NM |
|
13.40.01.C0460 |
AF STFP |
Effective Multi-Beam Arrangements for Operational Flexibility and Superior Coverage in High Throughput Satellites |
Kirtland Air Force Base |
NM |
|
13.40.01.C0462 |
AF STFP |
Enterprise Management and Control of Military and Commercial Satellite Communication Networks |
Kirtland Air Force Base |
NM |
|
13.40.01.C0463 |
AF STFP |
Network Function Synthesis in Software-Defined Satellite Networks |
Kirtland Air Force Base |
NM |
|
13.40.01.C0466 |
AF STFP |
Enterprise Space Data Transport Incorporating 5G |
Kirtland Air Force Base |
NM |
|
13.40.01.C0467 |
AF STFP |
Nontraditional and Resilient Satellite Navigation and Timing |
Kirtland Air Force Base |
NM |
|
13.40.01.C0470 |
AF STFP |
Network Tomography for Multi-Domain Operations |
Kirtland Air Force Base |
NM |
|
13.40.01.C0670 |
AF STFP |
Distributed Spacecraft Guidance, Navigation, Control and Autonomy |
Kirtland Air Force Base |
NM |
|
13.40.01.C0809 |
AF STFP |
Solar Geospace-environment Modeling Drivers |
Kirtland Air Force Base |
NM |
|
13.40.01.C0882 |
AF STFP |
Clustering Cislunar and XGEO Regions using Machine Learning Techniques |
Kirtland Air Force Base |
NM |
|
13.40.01.C0928 |
AF STFP |
Investigating the Link Between Earth's Radiation Belts and Dayside Transient Phenomena |
Kirtland Air Force Base |
NM |
|
13.40.04.B0170 |
AF STFP |
Atmospheric Ion Chemistry |
Kirtland Air Force Base |
NM |
|
13.40.04.B0205 |
AF STFP |
Electron Dynamics and Performance Issues in Infrared and Visible Detectors |
Kirtland Air Force Base |
NM |
|
13.40.09.B7485 |
AF STFP |
Laser Spectroscopy of Next-Generation Propellants |
Kirtland Air Force Base |
NM |
|
13.40.09.C0302 |
AF STFP |
Chemical Processes in the Space Environment |
Kirtland Air Force Base |
NM |
|
13.40.09.C0422 |
AF STFP |
Ion Molecule Chemistry for Propulsion Applications |
Kirtland Air Force Base |
NM |
|
13.40.10.B5812 |
AF STFP |
Remote Sensing of Ionospheric and Upper Atmospheric Structure and Dynamics |
Kirtland Air Force Base |
NM |
|
13.40.11.C0883 |
AF STFP |
Neuromorphic and Computational Imaging for Space Based Imaging and Exploitation |
Kirtland Air Force Base |
NM |
|
13.40.11.C0911 |
AF STFP |
Infrared detectors, focal plane arrays, and sensing technologies |
Kirtland Air Force Base |
NM |
|
13.40.12.B7987 |
AF STFP |
Cold-Atom Precision Timing and Inertial Navigation |
Kirtland Air Force Base |
NM |
|
13.40.12.B8020 |
AF STFP |
Development of Methods for Local and Near Regional Seismic Event Discrimination and Characterization |
Kirtland Air Force Base |
NM |
|
13.40.12.B8089 |
AF STFP |
Characterization of Hyperspectral Imagers |
Kirtland Air Force Base |
NM |
|
13.40.12.B8227 |
AF STFP |
Fundamental Investigation of Plasma Chemistry Kinetics and Dynamics towards Improved Communications Abilities |
Kirtland Air Force Base |
NM |
|
13.40.12.B8522 |
AF STFP |
The Effect on Material Properties (and the Underlying Chemistry) due to Exposure Simulated Space Environment |
Kirtland Air Force Base |
NM |
|
13.40.12.C0247 |
AF STFP |
Geophysical Machine Learning Applications |
Kirtland Air Force Base |
NM |
|
13.40.12.C0502 |
AF STFP |
Numerical modeling of seismic generation by underground explosions |
Kirtland Air Force Base |
NM |
|
13.40.12.C0638 |
AF STFP |
Solar drivers of space weather |
Kirtland Air Force Base |
NM |
|
13.40.12.C0792 |
AF STFP |
Middle and high latitude multi-instrument multi-model studies of ionospheric irregularities |
Kirtland Air Force Base |
NM |
|
13.40.12.C0903 |
AF STFP |
Levitated Optomechanics |
Kirtland Air Force Base |
NM |
|
13.40.12.C0937 |
AF STFP |
Remote Sensing of the Ionosphere, Mesosphere and Lower Thermosphere |
Kirtland Air Force Base |
NM |
|
13.40.12.C0962 |
AF STFP |
Integrated Photonics and Quantum Systems |
Kirtland Air Force Base |
NM |
|
13.40.12.C0963 |
AF STFP |
History of Space Vehicles Science and Technology |
Kirtland Air Force Base |
NM |
|
13.40.12.C0979 |
AF STFP |
Archivist |
Kirtland Air Force Base |
NM |
|
13.20.01.C0583 |
AF STFP |
Hardware Security and Trust |
Rome |
NY |
|
13.20.02.C0358 |
AF STFP |
Superconducting and Hybrid Quantum Information Platforms |
Rome |
NY |
|
13.20.03.C0136 |
AF STFP |
Developments in the Science and Systems to Improve Robustness to Adversarial Attacks on Artificial Intelligence |
Rome |
NY |
|
13.20.04.C0131 |
AF STFP |
Signal Processing Techniques to Improve Low Probability of Intercept Signal Detection and Characterization |
Rome |
NY |
|
13.20.04.C0134 |
AF STFP |
Cyber Psychology, Ethical Decision Making, Artificial Intelligence |
Rome |
NY |
|
13.20.05.C0004 |
AF STFP |
Quantum Optics/Integrated Photonics |
Rome |
NY |
|
13.20.05.C0456 |
AF STFP |
Quantum Optics/Quantum Integrated Photonics |
Rome |
NY |
|
13.20.05.C0788 |
AF STFP |
AFRL/RITQ Quantum Algorithms Research |
Rome |
NY |
|
13.20.05.C0900 |
AF STFP |
Neuromorphic Computing |
Rome |
NY |
|
13.20.91.C0202 |
AF STFP |
Exploring Elementary MultiSensor Fusion |
Rome |
NY |
|
13.20.91.C0606 |
AF STFP |
Acoustic Processing and Analysis |
Rome |
NY |
|
13.20.94.B6926 |
AF STFP |
Nanocomputing |
Rome |
NY |
|
13.20.95.B7951 |
AF STFP |
Wireless Sensor Networks in Contested Environments |
Rome |
NY |
|
13.20.95.B7952 |
AF STFP |
Complex Network Inference |
Rome |
NY |
|
13.20.95.C0421 |
AF STFP |
Advanced Solutions to Mitigate Threats in Cyber Domain |
Rome |
NY |
|
13.20.96.B6173 |
AF STFP |
Research Issues Relating to Information Management |
Rome |
NY |
|
13.20.97.B4950 |
AF STFP |
Radiowave Propagation and System Engineering for Advanced Satellite Communications |
Rome |
NY |
|
13.20.97.C0016 |
AF STFP |
Quantum Networking |
Rome |
NY |
|
50.64.35.B6768 |
NIST |
Synchrotron Methods: Extended X-Ray Absorption Fine Structure |
Upton |
NY |
|
50.64.35.B6769 |
NIST |
Synchrotron Methods: Variable Kinetic Energy X-Ray Photoelectron Spectroscopy |
Upton |
NY |
|
50.64.35.B8405 |
NIST |
X-Ray Science with Superconducting Sensors |
Upton |
NY |
|
50.64.35.C0701 |
NIST |
NIST/BNL High-Throughput Investigation of Chemical and Material Systems |
Upton |
NY |
|
50.64.35.C0924 |
NIST |
Materials Discovery Using Synchrotron Radiation, Machine Learning, and Artifical Intelligence |
Upton |
NY |
|
16.01.05.B7449 |
CCDC Armaments |
Molecular Dynamics Modeling of Nanocomposites |
Watervliet |
NY |
|
16.01.05.B8308 |
CCDC Armaments |
Modeling the Ammunition Rifling Interface of Long Range Artillery |
Watervliet |
NY |
|
16.01.05.C0082 |
CCDC Armaments |
Controlled Electrodeposition from Ionic Liquids |
Watervliet |
NY |
|
16.01.05.C0397 |
CCDC Armaments |
Nanomaterials for Localized Surface Plasmon Resonance and Surface Enhanced Raman |
Watervliet |
NY |
|
16.01.05.C0719 |
CCDC Armaments |
Synthetic Biology of Materials |
Watervliet |
NY |
|
13.50.00.B5167 |
AF STFP |
Molecular Reaction Dynamics |
AFIT, Wright-Patterson AFB |
OH |
|
13.50.00.B7386 |
AF STFP |
Networking, Security, Data Analytics, Natural Language Processing, Applied Machine Learning, Trusted Compilers and Computing, Cognitive Radios, and Cloud Computing |
AFIT, Wright-Patterson AFB |
OH |
|
13.50.00.B7465 |
AF STFP |
Combustion Dynamics for Novel Combustor Systems |
AFIT, Wright-Patterson AFB |
OH |
|
13.50.00.B7606 |
AF STFP |
Robust, Self-tuning Estimators in Distributed Systems |
AFIT, Wright-Patterson AFB |
OH |
|
13.50.00.B7801 |
AF STFP |
Detection and Destruction of Dangerous Water Pollutants |
AFIT, Wright-Patterson AFB |
OH |
|
13.50.00.C0067 |
AF STFP |
Numerical Simulation of Nonlinear Waves |
AFIT, Wright-Patterson AFB |
OH |
|
13.50.00.C0105 |
AF STFP |
Optical and Electromechanical Microsystems |
AFIT, Wright-Patterson AFB |
OH |
|
13.50.00.C0389 |
AF STFP |
Light-Matter Interactions, Quantum Technologies, Ultrashort Pulse Extreme Light, Table-Top Accelerator and Optical Diagnostics |
AFIT, Wright-Patterson AFB |
OH |
|
13.50.00.C0779 |
AF STFP |
Hypersonic Vehicle Multidisciplinary Design Optimization |
AFIT, Wright-Patterson AFB |
OH |
|
13.50.00.C0857 |
AF STFP |
Integrity in complex estimation problems |
AFIT, Wright-Patterson AFB |
OH |
|
13.50.00.C0885 |
AF STFP |
Finding Efficient Factorial Designs for Test and Evaluation |
AFIT, Wright-Patterson AFB |
OH |
|
13.50.00.C0930 |
AF STFP |
A computational investigation of the role of defects in structural materials |
AFIT, Wright-Patterson AFB |
OH |
|
13.50.00.C0933 |
AF STFP |
Positron Annihilation Spectroscopy and Modeling for Materials Science |
AFIT, Wright-Patterson AFB |
OH |
|
22.09.03.B6941 |
EPA |
Fate of Emerging Contaminants (EDCs, Pharmaceuticals Fluorinated Chemicals) in Municipal Waters |
Cincinnati |
OH |
|
22.09.04.B8340 |
EPA |
Energy Accounting System Modeling of Urban Water Systems |
Cincinnati |
OH |
|
22.09.04.B8391 |
EPA |
Improving Life Cycle Assessment of Drought Resilience |
Cincinnati |
OH |
|
13.15.02.B7362 |
AF STFP |
Cognitive technologies for digital engineering and agile readiness that ensure mission effectiveness |
Wright-Patterson AFB |
OH |
|
13.15.02.C0111 |
AF STFP |
Computational Cognitive Modeling of Complex Interactive Behavior |
Wright-Patterson AFB |
OH |
|
13.15.02.C0750 |
AF STFP |
Cognitive Effort and Metacognition |
Wright-Patterson AFB |
OH |
|
13.15.02.C0869 |
AF STFP |
Holistic Cognitive Models of Decision-making |
Wright-Patterson AFB |
OH |
|
13.15.04.C0728 |
AF STFP |
Organ-on-a-Chip and Organoid Models of Cognition and Performance |
Wright-Patterson AFB |
OH |
|
13.15.14.B7673 |
AF STFP |
Applied Approaches for Assessing and Optimizing Team Processes and States |
Wright-Patterson AFB |
OH |
|
13.15.14.B7693 |
AF STFP |
Mathematical Modeling and Visualization of Multidimensional Data and Complex Systems |
Wright-Patterson AFB |
OH |
|
13.15.14.B8388 |
AF STFP |
Enhancing Intelligence Analysts' Sensemaking Capabilities |
Wright-Patterson AFB |
OH |
|
13.15.14.C0731 |
AF STFP |
Trust in Machine Learning and Artificial Intelligence |
Wright-Patterson AFB |
OH |
|
13.15.14.C0813 |
AF STFP |
Cross-modal influence on cognitive processing and decision-making |
Wright-Patterson AFB |
OH |
|
13.15.15.B6373 |
AF STFP |
Biomolecular Interactions of Nanoparticles |
Wright-Patterson AFB |
OH |
|
13.15.15.B8430 |
AF STFP |
Wearable Chemical and Biochemical Sensors and Devices |
Wright-Patterson AFB |
OH |
|
13.15.15.B8531 |
AF STFP |
Molecular Tools for Biosignatures Tracking |
Wright-Patterson AFB |
OH |
|
13.15.15.C0108 |
AF STFP |
Novel Chemical Samplers and Passive Dosimeters |
Wright-Patterson AFB |
OH |
|
13.15.15.C0776 |
AF STFP |
Physiological impact of thermal and hydration stress |
Wright-Patterson AFB |
OH |
|
13.15.15.C0895 |
AF STFP |
Multi-omic Bioanalysis |
Wright-Patterson AFB |
OH |
|
13.15.15.C0925 |
AF STFP |
Development of Computational Tools for Mass Spectral Data Processing |
Wright-Patterson AFB |
OH |
|
13.25.01.B4279 |
AF STFP |
Nano- and Meso-structured Polymeric Materials and Composites |
Wright-Patterson AFB |
OH |
|
13.25.01.B7041 |
AF STFP |
Materials Heterogeniety in Electron and Thermal Transport and Energy Storage |
Wright-Patterson AFB |
OH |
|
13.25.01.B8231 |
AF STFP |
Novel Materials for Agile and Flexible Electronics |
Wright-Patterson AFB |
OH |
|
13.25.01.C0289 |
AF STFP |
Materials Heterogeneity |
Wright-Patterson AFB |
OH |
|
13.25.02.B5456 |
AF STFP |
Formation of Buried and Surface Epitaxial Plasmonic Structures |
Wright-Patterson AFB |
OH |
|
13.25.02.C0627 |
AF STFP |
Electron Transport Studies of Ultra-Wide Bandgap or Quantum Materials |
Wright-Patterson AFB |
OH |
|
13.25.02.C0820 |
AF STFP |
Enabling Room Temperature Quantum Technologies Through Phonon Engineering |
Wright-Patterson AFB |
OH |
|
13.25.03.B4959 |
AF STFP |
Bulk Oxide Glass |
Wright-Patterson AFB |
OH |
|
13.25.03.B5471 |
AF STFP |
Development and Characterization of Photorefractive Materials |
Wright-Patterson AFB |
OH |
|
13.25.03.B7646 |
AF STFP |
Liquid Crystalline Polymer Actuators |
Wright-Patterson AFB |
OH |
|
13.25.03.B8518 |
AF STFP |
Ultra-Wide bandgap Materials for Electronics and Optoelectronics |
Wright-Patterson AFB |
OH |
|
13.25.03.C0439 |
AF STFP |
Photochemistry of Chromophores and Materials |
Wright-Patterson AFB |
OH |
|
13.25.03.C0604 |
AF STFP |
Crystal Growth and Characterization of Novel Functional Low Dimensional Materials for Optoelectronic, Nanoelectronic, and Magnetic Applications |
Wright-Patterson AFB |
OH |
|
13.25.03.C0821 |
AF STFP |
Development and characterization of novel electro-optic materials |
Wright-Patterson AFB |
OH |
|
13.25.03.C0822 |
AF STFP |
Machine-learning Driven Inverse Design of Optical Metasurfaces |
Wright-Patterson AFB |
OH |
|
13.25.03.C0851 |
AF STFP |
mid-IR Quantum dots |
Wright-Patterson AFB |
OH |
|
13.25.04.B4968 |
AF STFP |
Computer Simulations for Design of Improved Aerospace Materials |
Wright-Patterson AFB |
OH |
|
13.25.04.B6127 |
AF STFP |
Flexible Hybrid Electronic Materials and Processing |
Wright-Patterson AFB |
OH |
|
13.25.04.C0222 |
AF STFP |
Nanoelectronic materials for low power electronics, heterogeneous integration, and sensing |
Wright-Patterson AFB |
OH |
|
13.25.04.C0237 |
AF STFP |
Enabling Tailorable Material Properties with Synthetic Methods |
Wright-Patterson AFB |
OH |
|
13.25.04.C0319 |
AF STFP |
Autonomous Research Systems ARES (TM) Applied to Carbon Nanotube Synthesis |
Wright-Patterson AFB |
OH |
|
13.25.04.C0441 |
AF STFP |
Autonomous Research Systems, ARES |
Wright-Patterson AFB |
OH |
|
13.25.04.C0454 |
AF STFP |
Advanced Characterization of Soft Matter |
Wright-Patterson AFB |
OH |
|
13.25.04.C0504 |
AF STFP |
In situ surface-enhanced Raman spectroscopy for studying chemical reactions |
Wright-Patterson AFB |
OH |
|
13.25.04.C0582 |
AF STFP |
Design of Adaptive Materials for Sensing, Actuation and Physical Computing |
Wright-Patterson AFB |
OH |
|
13.25.04.C0626 |
AF STFP |
Materials for Controlling the Propagation of Mechanical Waves |
Wright-Patterson AFB |
OH |
|
13.25.04.C0662 |
AF STFP |
Functional 2D materials for flexible electronics |
Wright-Patterson AFB |
OH |
|
13.25.04.C0881 |
AF STFP |
Computational Modeling of Polymer Melts and Solutions |
Wright-Patterson AFB |
OH |
|
13.25.04.C0926 |
AF STFP |
Synthesis of Low Temperature Polymers for Extreme Environments |
Wright-Patterson AFB |
OH |
|
13.25.05.B8105 |
AF STFP |
In operando Characterization of Polymer Matrix Composites |
Wright-Patterson AFB |
OH |
|
13.25.05.B8381 |
AF STFP |
Fundamental Studies of the Changes in Material States for Non-volatile Switching Memory Devices |
Wright-Patterson AFB |
OH |
|
13.25.05.B8444 |
AF STFP |
Performance Prediction and Damage Prognosis of Structural/Multifunctional Composites |
Wright-Patterson AFB |
OH |
|
13.25.05.B8469 |
AF STFP |
Novel Ceramic Nanostructures, Hybrid Materials, and Additive Manufacturing |
Wright-Patterson AFB |
OH |
|
13.25.05.B8480 |
AF STFP |
Understanding Damage in Multifunctional Nanocomposites |
Wright-Patterson AFB |
OH |
|
13.25.05.C0121 |
AF STFP |
Metals Additive Manufacturing Science |
Wright-Patterson AFB |
OH |
|
13.25.05.C0122 |
AF STFP |
Reliable Nondestructive Quantitative Materials and Damage Characterization |
Wright-Patterson AFB |
OH |
|
13.25.05.C0248 |
AF STFP |
Towards Developing Next-Generation Multi-Functional Composites for Aerospace Applications using Multi-scale Modeling and Machine Learning Approaches |
Wright-Patterson AFB |
OH |
|
13.25.05.C0255 |
AF STFP |
Evolution of Metallic Microstructures |
Wright-Patterson AFB |
OH |
|
13.25.05.C0282 |
AF STFP |
Constituent Development, Processing, and Functionalization of Ceramic Matrix Composites |
Wright-Patterson AFB |
OH |
|
13.25.05.C0747 |
AF STFP |
High Temperature Oxidation and Environmental Resistance in Concentrated Refractory Alloys |
Wright-Patterson AFB |
OH |
|
13.25.05.C0938 |
AF STFP |
Development of Inorganic and Hybrid Polymers and Composites for High Temperature Resins and Coatings |
Wright-Patterson AFB |
OH |
|
13.25.06.C0471 |
AF STFP |
Data Fusion and Analysis for Multi-Scale Mixed Modality Meso-to-Macroscale Microstructural Feature Characterization |
Wright-Patterson AFB |
OH |
|
13.25.07.B5769 |
AF STFP |
Ceramic Matrix Composites for High-Temperature Structural Applications |
Wright-Patterson AFB |
OH |
|
13.25.07.B7664 |
AF STFP |
Composite and Hybrid Materials for Responsive Structures |
Wright-Patterson AFB |
OH |
|
13.25.07.C0046 |
AF STFP |
Synthesis and Processing of Preceramic Polymers for Ceramic Matrix Composites and Compositionally Complex High Entropy Ceramics |
Wright-Patterson AFB |
OH |
|
13.25.07.C0216 |
AF STFP |
Advanced Processing of Ceramic and Ceramic Matrix Composite Structures |
Wright-Patterson AFB |
OH |
|
13.25.07.C0340 |
AF STFP |
Chiral Molecules, Polymers and Fibers for Aerospace Composites |
Wright-Patterson AFB |
OH |
|
13.25.07.C0901 |
AF STFP |
Multiscale Simulation Methods for the Design of Performance-Optimized Composite Material Architectures |
Wright-Patterson AFB |
OH |
|
13.25.09.C0495 |
AF STFP |
Design, Optimization, and Control for Autonomous Manufacturing Systems |
Wright-Patterson AFB |
OH |
|
13.25.09.C0744 |
AF STFP |
Next-Generation Human Machine Interfaces for Advanced Manufacturing |
Wright-Patterson AFB |
OH |
|
13.25.09.C0850 |
AF STFP |
Transitioning from automation to autonomy in DAF-relevant manufacturing |
Wright-Patterson AFB |
OH |
|
13.30.08.B0101 |
AF STFP |
Combustion and Spray Studies and Diagnostic Development |
Wright-Patterson AFB |
OH |
|
13.30.08.B0104 |
AF STFP |
Aero and Thermodynamics of Rotating Machinery |
Wright-Patterson AFB |
OH |
|
13.30.08.B8127 |
AF STFP |
Transonic Fan Distortion Transfer and Tolerance |
Wright-Patterson AFB |
OH |
|
13.30.08.B8144 |
AF STFP |
Improving Structural Dynamic and Material Characteristic Understanding of Turbomachinery Components |
Wright-Patterson AFB |
OH |
|
13.30.08.B8404 |
AF STFP |
Hot Fuel Chemistry for Advanced Propulsion |
Wright-Patterson AFB |
OH |
|
13.30.08.C0218 |
AF STFP |
Advanced Multi-Scale Combustion Systems |
Wright-Patterson AFB |
OH |
|
13.30.08.C0260 |
AF STFP |
Pressure Gain Combustion for Emerging Propulsion and Power Systems |
Wright-Patterson AFB |
OH |
|
13.30.08.C0844 |
AF STFP |
Rotating Detonation Engine Foundational Research |
Wright-Patterson AFB |
OH |
|
13.30.08.C0931 |
AF STFP |
Applied Research for Rotating Detonation Engines |
Wright-Patterson AFB |
OH |
|
13.30.08.C0967 |
AF STFP |
Rotating Detonation Engine Optical Diagnostics |
Wright-Patterson AFB |
OH |
|
13.30.08.C0968 |
AF STFP |
Rotating Detonation Engine Modeling and Simulation |
Wright-Patterson AFB |
OH |
|
13.30.08.C0991 |
AF STFP |
Laser-Based Diagnostic Optimization for Quantitative Measurements in Detonations |
Wright-Patterson AFB |
OH |
|
13.30.09.B0123 |
AF STFP |
System Level Integration for Multidisciplinary Analysis and Design Optimization |
Wright-Patterson AFB |
OH |
|
13.30.09.B4614 |
AF STFP |
Active Flow Control Modeling and Development |
Wright-Patterson AFB |
OH |
|
13.30.09.B4943 |
AF STFP |
Computational Aeroelasticity and Fluid/Structure Interaction |
Wright-Patterson AFB |
OH |
|
13.30.09.B5739 |
AF STFP |
Computational Fluid Dynamics Research in Numerical Simulation of Turbulence Flows |
Wright-Patterson AFB |
OH |
|
13.30.09.B6719 |
AF STFP |
High-Fidelity Multidisciplinary Computational Fluid Dynamics |
Wright-Patterson AFB |
OH |
|
13.30.09.B6873 |
AF STFP |
Morphing Aircraft Structural Technology Development |
Wright-Patterson AFB |
OH |
|
13.30.09.B8422 |
AF STFP |
High-Order Finite Element Methods for Computational Fluid Dynamics in Aerospace Vehicle Design |
Wright-Patterson AFB |
OH |
|
13.30.09.B8475 |
AF STFP |
Analysis of Low-Velocity Impact on Composite Structures |
Wright-Patterson AFB |
OH |
|
13.30.09.C0257 |
AF STFP |
Design, Optimization, and Characterization of Smart Materials and Morphing Structures |
Wright-Patterson AFB |
OH |
|
13.30.09.C0727 |
AF STFP |
Aerodynamics Research for Airframe-Propulsion Integration |
Wright-Patterson AFB |
OH |
|
13.30.09.C0753 |
AF STFP |
Aircraft Structural Analysis |
Wright-Patterson AFB |
OH |
|
13.30.09.C0853 |
AF STFP |
Analytic Sensitivities and Machine Learning applied to Uncertainty Quantification for Multidisciplinary Systems Analysis |
Wright-Patterson AFB |
OH |
|
13.30.09.C0914 |
AF STFP |
Rapid Time Dependent Non-Linear Predictive Method to Model Cavity Resonance |
Wright-Patterson AFB |
OH |
|
13.30.09.C0927 |
AF STFP |
Machine Learning Approaches in Computational Aerodynamics |
Wright-Patterson AFB |
OH |
|
13.30.10.B3817 |
AF STFP |
Control Systems for Air Force Applications |
Wright-Patterson AFB |
OH |
|
13.30.10.B7102 |
AF STFP |
Thermal Energy Storage |
Wright-Patterson AFB |
OH |
|
13.30.10.B7103 |
AF STFP |
High Performance Electric Actuation System Thermal Management |
Wright-Patterson AFB |
OH |
|
13.30.10.B7148 |
AF STFP |
Superconductors, Thermoelectrics, Carbon Nanotubes, Magnetic Materials, and Thermal Physics for Energy, Power and Thermal Applications |
Wright-Patterson AFB |
OH |
|
13.30.10.B7781 |
AF STFP |
Multiscale, Multiphysics and Multidomain Modeling of Aircraft Power and Thermal Systems |
Wright-Patterson AFB |
OH |
|
13.30.10.B7787 |
AF STFP |
Electron Energy Distribution and Transfer Phenomena in Non-Equilibrium Gases |
Wright-Patterson AFB |
OH |
|
13.30.10.C0207 |
AF STFP |
High Capacity Cathode Materials Functionalized with Carbon for Lithium-based Batteries |
Wright-Patterson AFB |
OH |
|
13.30.10.C0336 |
AF STFP |
Wide Bandgap and Ultra-wide Bandgap Semiconductor Processing and Device Development |
Wright-Patterson AFB |
OH |
|
13.30.11.B4615 |
AF STFP |
Hypersonic Boundary Layer Transition and Control |
Wright-Patterson AFB |
OH |
|
13.30.11.B5437 |
AF STFP |
Advanced Diagnostics for High-Speed Flows |
Wright-Patterson AFB |
OH |
|
13.30.11.B7954 |
AF STFP |
Combustion Enhancement in High-Speed Flows |
Wright-Patterson AFB |
OH |
|
13.30.11.C0236 |
AF STFP |
Turbulent Combustion Modeling of High-speed Air-breathing Components |
Wright-Patterson AFB |
OH |
|
13.30.11.C0548 |
AF STFP |
Development and Application of Diagnostics for High-Speed Air-Breathing Propulsion |
Wright-Patterson AFB |
OH |
|
13.30.11.C0696 |
AF STFP |
Development of Computational Tools for High-Speed Flows |
Wright-Patterson AFB |
OH |
|
13.30.11.C0826 |
AF STFP |
Development and application of advanced simulation approaches for high-speed combustion |
Wright-Patterson AFB |
OH |
|
13.35.01.B0118 |
AF STFP |
Solid-State Laser Source Development |
Wright-Patterson AFB |
OH |
|
13.35.01.B4478 |
AF STFP |
Radar Systems Theory |
Wright-Patterson AFB |
OH |
|
13.35.01.B5790 |
AF STFP |
Phenomenology-Based Adaptive Radar Signal Processing |
Wright-Patterson AFB |
OH |
|
13.35.01.B5858 |
AF STFP |
Bio-Inspired Radar Systems for Intelligent Information Processing |
Wright-Patterson AFB |
OH |
|
13.35.01.B6350 |
AF STFP |
Investigation and Optimization of Existing and Novel Electronic Devices |
Wright-Patterson AFB |
OH |
|
13.35.01.B7061 |
AF STFP |
Integration of Multicomponent Oxide Materials in Sensor Applications |
Wright-Patterson AFB |
OH |
|
13.35.01.B7062 |
AF STFP |
Distributed Netted Radar Signal Processing |
Wright-Patterson AFB |
OH |
|
13.35.01.B7063 |
AF STFP |
Object Recognition Concepts |
Wright-Patterson AFB |
OH |
|
13.35.01.B7107 |
AF STFP |
Computational Electromagnetics and Electronics |
Wright-Patterson AFB |
OH |
|
13.35.01.B7313 |
AF STFP |
Waveform Agile Radar Processing (WARP) |
Wright-Patterson AFB |
OH |
|
13.35.01.B7326 |
AF STFP |
Ultrasensitive Receiver Architectures |
Wright-Patterson AFB |
OH |
|
13.35.01.B7368 |
AF STFP |
Intracavity Laser Dynamics and Diverse Waveform Generation |
Wright-Patterson AFB |
OH |
|
13.35.01.B7392 |
AF STFP |
Photonics and Optoelectronics for USAF Sensor Applications |
Wright-Patterson AFB |
OH |
|
13.35.01.B7397 |
AF STFP |
Remote Sensing from Hypersonic Platforms |
Wright-Patterson AFB |
OH |
|
13.35.01.B7398 |
AF STFP |
Scattering and Propagation in Complex Environment |
Wright-Patterson AFB |
OH |
|
13.35.01.B7630 |
AF STFP |
Crystal Growth and Study of and Nonlinear Optical and Electronic Materials for Novel Laser Sources and Other Electronic and Optoelectronic Applications |
Wright-Patterson AFB |
OH |
|
13.35.01.B7640 |
AF STFP |
Fully Adaptive Radar |
Wright-Patterson AFB |
OH |
|
13.35.01.B7646 |
AF STFP |
Liquid Crystalline Polymer Actuators |
Wright-Patterson AFB |
OH |
|
13.35.01.B7665 |
AF STFP |
Mid-IR Quantum Optics |
Wright-Patterson AFB |
OH |
|
13.35.01.B7686 |
AF STFP |
Electro-Optical Devices and Technologies for Infrared Sensing Applications |
Wright-Patterson AFB |
OH |
|
13.35.01.B8237 |
AF STFP |
Integrated Photonic Devices, Circuits, and Systems |
Wright-Patterson AFB |
OH |
|
13.35.01.B8428 |
AF STFP |
Growth and Characterization of Low Dimensional Electronic Materials |
Wright-Patterson AFB |
OH |
|
13.35.01.B8542 |
AF STFP |
First-Principles Modeling of Electronic and Photonic Structures |
Wright-Patterson AFB |
OH |
|
13.35.01.C0212 |
AF STFP |
First-Principles Semiconductor Modeling for Advanced Physics Based Device Models |
Wright-Patterson AFB |
OH |
|
13.35.01.C0221 |
AF STFP |
Investigation of Electronic Transport Properties of Transition Metal Nitrides |
Wright-Patterson AFB |
OH |
|
13.35.01.C0312 |
AF STFP |
Infrared Detectors |
Wright-Patterson AFB |
OH |
|
13.35.01.C0327 |
AF STFP |
Topological Surface Currents |
Wright-Patterson AFB |
OH |
|
13.35.01.C0337 |
AF STFP |
High Operating Temperature IR and Fused IR/RF Detectors |
Wright-Patterson AFB |
OH |
|
13.35.01.C0355 |
AF STFP |
Liquid Crystalline Polymer Actuators |
Wright-Patterson AFB |
OH |
|
13.35.01.C0371 |
AF STFP |
Mid- and Long-Wavelength Infrared Single Band Detectors for Infrared Imaging |
Wright-Patterson AFB |
OH |
|
13.35.01.C0385 |
AF STFP |
Lasers for Active Sensing |
Wright-Patterson AFB |
OH |
|
13.35.01.C0534 |
AF STFP |
Electronic-grade dielectric integration for high-power, high frequency electronic devices |
Wright-Patterson AFB |
OH |
|
13.35.01.C0563 |
AF STFP |
Thin Film Growth and Characterization of Group-IV Materials for Low Cost Infrared Detectors |
Wright-Patterson AFB |
OH |
|
13.35.01.C0637 |
AF STFP |
Novel Nanophotonic Structures and Epsilon-Near-Zero Materials for Infrared Applications |
Wright-Patterson AFB |
OH |
|
13.35.01.C0674 |
AF STFP |
Safety Monitoring for Autonomous Systems |
Wright-Patterson AFB |
OH |
|
13.35.01.C0732 |
AF STFP |
B6878 133501 Infrared Sensing Research |
Wright-Patterson AFB |
OH |
|
13.35.01.C0915 |
AF STFP |
Active electro-optical sensing and imaging |
Wright-Patterson AFB |
OH |
|
13.35.01.C0959 |
AF STFP |
Heterogeneous Integration Packaging |
Wright-Patterson AFB |
OH |
|
22.09.01.B0450 |
EPA |
Natural Attenuation of Contaminants in the Subsurface |
Ada |
OK |
|
22.09.01.B0453 |
EPA |
Geochemical Processes in Subsurface Systems |
Ada |
OK |
|
22.09.01.B0454 |
EPA |
In Situ Remediation of Contaminants in Ground Water and Soils Using Permeable Reactive Barriers |
Ada |
OK |
|
22.09.01.B7927 |
EPA |
Understanding the Mass Discharge Behavior of Groundwater Source Zones |
Ada |
OK |
|
22.09.01.B8216 |
EPA |
Development of Mathematical Modeling Tools for Predicting Fate and Transport of PFAS Contaminants in Subsurface Formations |
Ada |
OK |
|
22.09.01.B8222 |
EPA |
The Ecosystem Effects of River Floodplain Restoration and Infrastructure |
Ada |
OK |
|
22.09.01.B8329 |
EPA |
Tools for Watershed and Water Quality Management |
Ada |
OK |
|
26.76.00.B0649 |
NOAA |
Diagnosis and Prediction of Severe Convection |
Norman |
OK |
|
26.76.00.B0653 |
NOAA |
Atmospheric Electricity and Lightning |
Norman |
OK |
|
26.76.00.B4638 |
NOAA |
Thunderstorm Electrification Modeling and Lightning Data Assimilation in Mesoscale Models |
Norman |
OK |
|
26.76.00.B4674 |
NOAA |
Initiation of Deep Moist Convection |
Norman |
OK |
|
26.76.00.B6815 |
NOAA |
Climatological Aspects of Severe Thunderstorms |
Norman |
OK |
|
26.76.00.B6868 |
NOAA |
Storm-Scale Modeling, Assimilation, and Prediction |
Norman |
OK |
|
26.76.00.B7468 |
NOAA |
Understanding of Severe Convective Weather to Improve Hazardous Weather Forecasting |
Norman |
OK |
|
26.76.00.B7602 |
NOAA |
Understanding the Needs and Use of Probabilistic Forecast Guidance by Stakeholders |
Norman |
OK |
|
26.76.00.B8175 |
NOAA |
Impact of Assimilating Multi-Function Phased Array Radar Observations on Storm-Scale Ensemble Forecasts of Severe Convective Storms |
Norman |
OK |
|
26.76.00.B8252 |
NOAA |
Predictability of Organized Convection and Applications to Warn-on-Forecast Ensemble Design |
Norman |
OK |
|
26.76.00.B8274 |
NOAA |
Convective Scale Predictability and Development of Severe Weather Model Diagnostics, Verification, and Visualization Strategies for High-Resolution Ensemble Forecast Systems |
Norman |
OK |
|
26.76.00.B8554 |
NOAA |
Warn-on-Forecast Research and Development |
Norman |
OK |
|
26.76.00.C0332 |
NOAA |
Decision making under uncertainty for high-impact, short-fused weather events |
Norman |
OK |
|
26.76.00.C0481 |
NOAA |
Novel Verification Techniques for Warn-on-Forecast Ensembles |
Norman |
OK |
|
26.76.00.C0545 |
NOAA |
Investigating the post-landfall evolution of tropical cyclone structure and hazards |
Norman |
OK |
|
26.76.00.C0706 |
NOAA |
Machine Learning Applications to Warn-on-Forecast |
Norman |
OK |
|
26.76.00.C0730 |
NOAA |
Multi-resolution ensemble design for Warn-on-Forecast |
Norman |
OK |
|
26.76.00.C0864 |
NOAA |
Phased Array Radar Observations, Tools, and Techniques |
Norman |
OK |
|
22.10.04.B7165 |
EPA |
Solutions for Addressing Nutrient Impacts on Water Quality and Ecosystem Services |
Corvallis |
OR |
|
26.03.78.B8523 |
NOAA |
Seasonal Forecasting of Pacific Hake Distribution in the California Current Ecosystem |
Newport |
OR |
|
26.77.77.B4631 |
NOAA |
Underwater Environmental Acoustics |
Newport |
OR |
|
26.09.10.B6322 |
NOAA |
Coral Health and Disease |
Charleston |
SC |
|
26.09.10.C0646 |
NOAA |
Effects of Ozone impregnated nano bubbles on sediment and water column nutrient loads |
Charleston |
SC |
|
50.64.63.B1712 |
NIST |
Separation Science Techniques for Trace Organic Analysis |
Charleston |
SC |
|
50.64.63.B4794 |
NIST |
Analytical Methods Development for the Determination of Anthropogenic Contaminants in the Marine Environment |
Charleston |
SC |
|
50.64.63.B5547 |
NIST |
Research in Elemental Speciation of Clinical and Biological Systems |
Charleston |
SC |
|
50.64.63.B6907 |
NIST |
Research in Metallomics |
Charleston |
SC |
|
50.64.63.B7859 |
NIST |
Stable Isotope Metrology for Environmental and Forensics Research |
Charleston |
SC |
|
50.64.63.B7888 |
NIST |
Metabolomic and Lipidomic Research: Emphasizing Advanced Data Analysis, Metabolite/Lipid Annotation, and Functional Pathway Elucidation |
Charleston |
SC |
|
50.64.63.B8335 |
NIST |
Determination of Chemical Contaminant Profiles in Water |
Charleston |
SC |
|
50.64.63.B8576 |
NIST |
Advances in High Resolution Mass Spectrometry for Exposure Sciences and Forensic Analyses |
Charleston |
SC |
|
50.64.63.C0152 |
NIST |
Mass Spectrometry of Chemical Tracers |
Charleston |
SC |
|
50.64.63.C0153 |
NIST |
Non-targeted Omic Based Bioanalytical Measurements |
Charleston |
SC |
|
50.64.63.C0154 |
NIST |
Multimodal Microbiome Measurements |
Charleston |
SC |
|
50.64.63.C0272 |
NIST |
Developing bioanalytical foundations for analysis in non-model systems |
Charleston |
SC |
|
50.64.63.C0273 |
NIST |
Benchmarking metaproteomic analytical workflows |
Charleston |
SC |
|
50.64.63.C0617 |
NIST |
Research in the Measurement Science of Per- and Polyfluoroalkyl Substances |
Charleston |
SC |
|
13.30.13.C0700 |
AF STFP |
Aerodynamic Response to Deforming Surfaces in High-Speed Flow |
Arnold AFB |
TN |
|
26.04.79.B8292 |
NOAA |
Atmosphere-Biosphere Exchange of Reactive Nitrogen |
Oak Ridge |
TN |
|
26.04.79.C0806 |
NOAA |
Investigations in Surface-Atmosphere Exchange over a Mixed Deciduous Forest in the Southern Appalachians |
Oak Ridge |
TN |
|
13.15.10.B3740 |
AF STFP |
Laser-Tissue Interaction |
Fort Sam Houston |
TX |
|
13.15.10.B3743 |
AF STFP |
The Physiological Response(s) to Intense Electrical Stimuli |
Fort Sam Houston |
TX |
|
13.15.10.B7419 |
AF STFP |
Impact of Short Pulse Electromagnetic Fields on Mammalian Cells |
Fort Sam Houston |
TX |
|
13.15.10.B7570 |
AF STFP |
Theoretical and Computational Laser Biophysics |
Fort Sam Houston |
TX |
|
13.15.10.B8221 |
AF STFP |
Investigation of Electromagnetic Field Bioeffects |
Fort Sam Houston |
TX |
|
13.15.10.B8434 |
AF STFP |
Ultrafast Spectroscopic Investigations on the Mechanisms of Interaction of Modified Sensing Proteins with the Electromagnetic Spectrum |
Fort Sam Houston |
TX |
|
13.15.10.C0040 |
AF STFP |
Early Consequences of Laser-tissue Interaction at the Atomistic and Molecular Level using Ultrafast Methods |
Fort Sam Houston |
TX |
|
13.15.10.C0540 |
AF STFP |
Modeling and Simulation of Multi-Physics |
Fort Sam Houston |
TX |
|
13.15.10.C0639 |
AF STFP |
In Vivo Radiofrequency Dosimetry |
Fort Sam Houston |
TX |
|
13.15.10.C0940 |
AF STFP |
In Vivo Radiofrequency Bioeffects using Magnetic Resonance Imaging (MRI) |
Fort Sam Houston |
TX |
|
13.15.10.C0956 |
AF STFP |
Applied Physics and Engineering in Radio Frequency Electromagnetics |
Fort Sam Houston |
TX |
|
13.15.10.C0957 |
AF STFP |
Radiofrequency Bioeffects using Multimodal In Vivo Imaging |
Fort Sam Houston |
TX |
|
13.15.10.C0958 |
AF STFP |
Neurostimulation to Investigate In Vivo Radiofrequency Bioeffects |
Fort Sam Houston |
TX |
|
13.15.10.C0960 |
AF STFP |
Investigation of In Vivo Directed Energy Bioeffects using Immunohistochemistry |
Fort Sam Houston |
TX |
|
13.15.10.C0969 |
AF STFP |
Investigating Cellular Responses to Directed Energy using Advanced Optical Imaging |
Fort Sam Houston |
TX |
|
97.40.00.B7471 |
AMRMC |
Biofilms Impaired Wound Healing |
Fort Sam Houston |
TX |
|
97.40.00.B7472 |
AMRMC |
Wound Modulation to Improve Healing Response |
Fort Sam Houston |
TX |
|
97.40.00.B7896 |
AMRMC |
To Study Changes in the Coagulation and Immune Systems after Trauma and Blood Loss |
Fort Sam Houston |
TX |
|
13.60.01.C0970 |
AF STFP |
Senior Research Associate, Science and Technology Fellowship Program (STFP) |
Arlington |
VA |
|
33.01.01.B4178 |
RDEC/NVESD |
Modeling Theorist |
Fort Belvoir |
VA |
|
33.01.01.B6714 |
RDEC/NVESD |
Semiconductor Growth, Characterization and Modeling for Advanced, Infrared Imaging Application |
Fort Belvoir |
VA |
|
33.01.08.B8447 |
RDEC/NVESD |
Antimonide Based Infrared Detectors |
Fort Belvoir |
VA |
|
27.01.00.B7929 |
FHWA |
Applied Engineering Research to Advance the State-of-the-Art in Highway Transportation Geotechnics |
McLean |
VA |
|
27.01.00.B8357 |
FHWA |
Ultra-High Performance Concrete: Materials and Structures from Research to Deployment |
McLean |
VA |
|
27.01.00.C0167 |
FHWA |
Support the Development of Models, Analysis Techniques and Tools for Incorporating Sustainable Practices in Pavement Material and Structural Design Decision-Making |
McLean |
VA |
|
27.01.00.C0210 |
FHWA |
Applied Engineering Research to Advance the State-of-the-Art in Concrete Highway Bridges |
McLean |
VA |
|
27.01.00.C0354 |
FHWA |
Use of Pavement Structural Condition from Traffic Speed Deflection Devices in Pavement Management Decisionmaking |
McLean |
VA |
|
27.01.00.C0384 |
FHWA |
Application of Artificial Intelligence for Highway Infrastructure Asset Management |
McLean |
VA |
|
27.01.00.C0487 |
FHWA |
Leveraging Big Data for Enhanced Pavement Management |
McLean |
VA |
|
27.01.00.C0690 |
FHWA |
Use of Data Science in Asphalt Materials |
McLean |
VA |
|
27.01.00.C0697 |
FHWA |
Advanced Data-Driven Crash Analysis Reflecting ADAS for Safe System Approach |
McLean |
VA |
|
27.01.00.C0705 |
FHWA |
Use of SHRP 2 NDS Data and RID in Highway Safety and Operations Analytics |
McLean |
VA |
|
27.01.00.C0783 |
FHWA |
Renowned Associate Position: AI Applications in Traffic Engineering and CDA Research |
McLean |
VA |
|
27.01.00.C0910 |
FHWA |
Data Mining and Analysis Tools and Methodologies for Traffic Modeling and Simulation |
McLean |
VA |
|
27.01.00.C0980 |
FHWA |
High-Fidelity Simulation and Highway Safety |
McLean |
VA |
|
26.03.39.B4647 |
NOAA |
Olfactory Physiology and Behavior of Salmonids |
Seattle |
WA |
|
26.03.39.B7410 |
NOAA |
Marine Fish Reproductive and Growth Physiology |
Seattle |
WA |
|
26.03.39.B7411 |
NOAA |
Ecotoxicology to Support Aquatic Conservation Biology |
Seattle |
WA |
|
26.03.39.B7416 |
NOAA |
Development of Chemical Tracer Methods and the Environmental Impacts of Storm Water Contaminants |
Seattle |
WA |
|
26.03.39.B8523 |
NOAA |
Seasonal Forecasting of Pacific Hake Distribution in the California Current Ecosystem |
Seattle |
WA |
|
26.03.39.C0503 |
NOAA |
Development of a Model for Trophic Transfer and Wildlife Health Impacts of Algal Toxins in Arctic/Subarctic Food Webs |
Seattle |
WA |
|
26.03.40.C0264 |
NOAA |
Strategies for Reducing Costs of Fishery-Independent Surveys |
Seattle |
WA |
|
26.03.40.C0277 |
NOAA |
Collaborating with the Alaska Commercial Rockfish Fishery: Using Fishery Dependent Catch and Effort Data to Inform Gulf of Alaska Stock Assessments. |
Seattle |
WA |
|
26.03.40.C0667 |
NOAA |
Adapting monitoring to a changing seascape: increasing the efficiency, flexibility, and continuity of bottom trawl surveys in the Bering Sea and beyond |
Seattle |
WA |
|
26.03.40.C0721 |
NOAA |
Arctic ecosystem modeling |
Seattle |
WA |
|
26.77.85.B0665 |
NOAA |
Large-Scale Ocean Circulation, Water-Mass Structure, and Climate |
Seattle |
WA |
|
26.77.85.B5364 |
NOAA |
The Role of the Tropical Oceans in Climate |
Seattle |
WA |
|
26.77.85.C0588 |
NOAA |
Air-sea CO2 observing and new technologies |
Seattle |
WA |