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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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Conformable infinite Composite Pressure Vessel (CiCPV) for Hydrogen Storage
SBC: INFINITE COMPOSITES, INC Topic: A234011Redacted
SBIR Phase II 2023 Department of DefenseArmy -
"ZERO Plastic" shipping containers for fabricating new parts from waste plastics
SBC: ZERO PLASTIC LLC Topic: A234P014Redacted.
SBIR Phase I 2023 Department of DefenseArmy -
Isogeometric Analysis Methods for High Fidelity Mobility Applications
SBC: YB NUMERICS, INC. Topic: A19BT006The designs of US Army vehicles, such as the Abrams tank and Apache and Black Hawk helicopters, are continuously improved to deliver increased performance on the battlefield. Advanced numerical simulations of fluid flow and solid/structural mechanics are often used to assess the vehicle or engine performance, to identify the mechanical factors that contribute to the shortening of their life span, ...
STTR Phase II 2021 Department of DefenseArmy -
High gain NIR-to-visible direct conversion vertical light-emitting phototransistor
SBC: GHOST DISPLAY TECHNOLOGIES, LLC Topic: A21CT015None
STTR Phase I 2022 Department of DefenseArmy -
3D Woven Composite Mortar Baseplate
SBC: T.E.A.M., INC. Topic: A214006Redacted
SBIR Phase I 2021 Department of DefenseArmy -
Chroma-Therm: Advanced LWIR Multi-Band Imaging System
SBC: RPX TECHNOLOGIES INC Topic: A19042This proposal seeks to enhance warfighter situational awareness and improve threat detection by developing an advanced thermal imager that processes and presents full-motion multi-band LWIR chroma video in accord with human color-vision processing. This will be useful in a variety of applications, including by dismounted soldiers (helmet-mounted or handheld), on small UAVs, as well as supporting a ...
SBIR Phase II 2020 Department of DefenseArmy -
Pose-Invariant Probabilistic Face Recognition
SBC: VISION SYSTEMS INC Topic: A20074Modern deep learning-based face recognition systems perform at or above human levels on high quality frontal imagery, but their performance suffers significantly on more operationally relevant imagery with confounding factors such as extreme pose. This performance degradation is based on two primary shortcomings: poor match between training and test-time image data, and failure to model inherent ...
SBIR Phase I 2020 Department of DefenseArmy -
Embedded IR (embIR) EO/IR with an Agile Radio for Interfacing Unmanned Systems (ARIUS)
SBC: RPX TECHNOLOGIES INC Topic: A16110ARIUS is an ultra-low SWaP-C, military-qualified, modular, software defined radio (SDR) system that enhances the capability of next generation unmanned systems.
SBIR Phase II 2020 Department of DefenseArmy -
Investigations of the Graphene/Bismuth Chalcogenide Heterointerface Engineering: A Low-Cost Approach for MWIR and LWIR High Temperature Infrared Detectors
SBC: AMETHYST RESEARCH INC Topic: A20119This proposal seeks to address the need for improved performance in infrared imaging systems by developing an unconventional infrared detector technology. We seek to demonstrate performance improvements based on an emerging class of novel materials, namely bismuth chalcogenides, and a detector architecture employing graphene / bismuth chalcogenide heterointerfaces to facilitate efficient charge tr ...
SBIR Phase I 2021 Department of DefenseArmy -
Manufacturable, High-Speed, MWIR and LWIR Detectors with Bias-Controllable Internal Gain
SBC: AMETHYST RESEARCH INC Topic: A20BT014Linear mode avalanche photodiodes (APDs) will be developed in III-V materials epitaxially grown on commercially available GaSb substrates. The detectors will have bias-controllable internal current gain greater than 10, limited excess noise, and response times shorter than 0.5 nanosecond. In Phase I, initial APDs will use InAsSb absorbers, producing response out to 4.2 micron wavelengths. Next, AP ...
STTR Phase I 2021 Department of DefenseArmy