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Award Data
The Award database is continually updated throughout the year. As a result, data for FY24 is not expected to be complete until March, 2025.
Download all SBIR.gov award data either with award abstracts (290MB)
or without award abstracts (65MB).
A data dictionary and additional information is located on the Data Resource Page. Files are refreshed monthly.
The SBIR.gov award data files now contain the required fields to calculate award timeliness for individual awards or for an agency or branch. Additional information on calculating award timeliness is available on the Data Resource Page.
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Activated Organophosphate Hydrolase for Coupling to Human Skin
SBC: LYNNTECH INC. Topic: N/AThis Phase II STTR proposal describes an activated form of organophosphate hydrolyzing enzyme that, when dissolved in water, forms a covalent bond to skin. In Phase I, a lyophilized preparation of Organophosphate Hydrolase (OPH) from Pseudomonas diminutaretained the capability to couple to skin and to hydrolyze nerve agent surrogates when stored for months at 40¿C. Immobilized enzyme also retai ...
STTR Phase I 2001 Department of DefenseArmy -
Activated Organophosphate Hydrolase for Coupling to Human Skin
SBC: LYNNTECH INC. Topic: N/AThis Phase II STTR proposal describes an activated form of organophosphate hydrolyzing enzyme that, when dissolved in water, forms a covalent bond to skin. In Phase I, a lyophilized preparation of Organophosphate Hydrolase (OPH) from Pseudomonas diminutaretained the capability to couple to skin and to hydrolyze nerve agent surrogates when stored for months at 40¿C. Immobilized enzyme also retai ...
STTR Phase II 2001 Department of DefenseArmy -
Activated Reactants to Reduce Fuel Cell Overpotentials
SBC: JSJ Technologies, LLC Topic: A10AT011The current produced in electrochemical galvanic cells is primarily dependent on the rate of the electrode reactions where the cell's anode is less negative, supplying less energy than thermodynamically predicted, and the cell's cathode is less positive, supplying less energy than thermodynamically predicted. Reduction of electrochemical overpotentials in electrochemical systems has been the prim ...
STTR Phase I 2010 Department of DefenseArmy -
Activated Reactants to Reduce Fuel Cell Overpotentials
SBC: JSJ Technologies, LLC Topic: A10aT011he current produced in electrochemical galvanic cells is primarily dependent on the rate of the electrode reactions where the cell's anode is less negative, supplying less energy than thermodynamically predicted, and the cell's cathode is less positive, supplying less energy than thermodynamically predicted. Reduction of electrochemical overpotentials in electrochemical systems has been ...
STTR Phase II 2012 Department of DefenseArmy -
Adjustable Autonomy for Intelligent Operation of Mobile Manipulators
SBC: Traclabs Inc. Topic: A11aT032In recent years, the military has been integrating robotic systems into tasks previously performed entirely manually by soldiers. Examples include explosive ordnance disposal (EOD), surveillance and reconnaissance, urban search and rescue (USAR), chemical, biological, and nuclear (CBN) operations, and medical assistance and evacuation. A typical application is for a soldier (remote operator) to te ...
STTR Phase I 2011 Department of DefenseArmy -
Advanced Dynamic Actuation and Morphology (ADAM)
SBC: APPTRONIK INC Topic: A20BT007Our Approach We propose a novel, liquid cooled, actuator remote from its degree of freedom (DoF). Our approach represents a significant improvement from state-of-the-art actuation, taking inspiration from Lockheed-Martin’s lightweight ONYX exoskeleton and the unit modularity of systems such as mini-cheetah, and combining our experience in exoskeleton remote actuation and liquid cooled actuators. ...
STTR Phase I 2021 Department of DefenseArmy -
Advanced Low Temperature Liquid Metal Anode Solid Oxide Fuel Cells
SBC: LYNNTECH INC. Topic: A08T007Solid oxide fuel cells (SOFCs) offer significant benefits to the Army/DoD based on their high efficiencies, fuel versatility, quiet operation, and negligible emissions. Liquid tin anode solid oxide fuel cells (LTA-SOFCs) can operate directly on military logistics fuels (JP-8, JP-5, and diesel), even with high levels of impurities, thereby avoiding the requirement for an additional fuel reformer. ...
STTR Phase I 2008 Department of DefenseArmy -
Analysis and Design of Adaptive Multi-Function Antenna Systems Based on Signal Fragmentation
SBC: Albanese Defense and Energy Development Company Topic: A18BT009We propose an innovative approach to the design of multi-function adaptive antenna systems using signal fragmentation by short pulses (wavelets). It relies on the sampling theory, approximation theory, and numerical optimization; it has passed significant prior testing. The use of short pulses allows the radiation of long waves by small size antennas/arrays, which would otherwise be inefficient. T ...
STTR Phase II 2020 Department of DefenseArmy -
Analysis and Design of Adaptive Multi-Function Antenna Systems Based on Signal Fragmentation
SBC: Albanese Defense and Energy Development Company Topic: A18BT009We propose an innovative mathematical approach to the analysis and design of multi-function adaptive antenna systems. It uses the idea of signal fragmentation that has passed significant prior testing and employs the methods and results from sampling theory, approximation theory, and numerical optimization. The fragmentation of a signal into a combination of short elementary pulses (wavelets) allo ...
STTR Phase I 2019 Department of DefenseArmy -
ANDFET – A new class of Si power MOSFETs with near zero reverse recovery
SBC: APPLIED NOVEL DEVICES, INC. Topic: A15023Applied Novel Devices (AND) is commercializing an innovative power MOSFET technology platform (called ANDFET) that brings in several unique GaN-like performance benefits to Si power devices at a fraction of the cost. As part of this sequential proposal, we propose to increase the technical maturity level and manufacturing readiness level from TRL/MRL level 6 to level 8. During this project, AN ...
STTR Phase II 2023 Department of DefenseArmy