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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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Advanced Commercially Available Inherently Radhard Primitive Cell Designs.
SBC: American Semiconductor, Inc. Topic: AF05018The Air Force Research Laboratory (AFRL), Military Satellite Communication (MILSATCOM), and National Aeronautics and Space Administration (NASA) have a current and future need for advanced commercially available inherently radhard primitive cell libraries to support new designs for satellites and other spacecraft. American Semiconductor Inc. proposes the use of double gated Flexfet technology for ...
SBIR Phase I 2005 Department of DefenseAir Force -
Maintainable Solution-Derived Nanocoatings for Advanced Boiler Systems
SBC: APPLIED THIN FILMS, INC Topic: 15b78188S Ultra-Supercritical (USC) coal-fired power plants are being designed to meet the Vision 21 goals of fuel efficiency and environmental emission standards. The material systems for these plants will be required to limit degradation occuring from corrosion at elevated temperatures. Due to higher operational temperatures in USC plants (up to 750 C), the environments encountered in these plant ...
SBIR Phase I 2005 Department of Energy -
Surface-Enhanced Detection of Molecular and Biomolecular Species
SBC: BIOTOOLS, INC. Topic: AF05T025This Phase I STTR will demonstrate the feasibility of near-infrared (near-IR) excited surface-enhanced Raman optical activity (SEROA) as a sensitive new probe of biological molecules and trace chiral materials. The research will use nanoshells as fabricated and optimized at Rice University as a newly developed, tunable, highly-uniform, SERS substrates for chiral molecules and bio-molecules. The ...
STTR Phase I 2005 Department of DefenseAir Force -
Advanced Antenna Pattern Prediction Software
SBC: CHEW CONSULTING, INC. Topic: AF05T018We propose to develop advanced antenna pattern prediction software using fast algorithm for integral equation. The software will be developed from first principle integral equation solver accelerated by the multi-level fast multipole algorithm. Material effects will be included using volume integral equation and a newly developed thin dielectric sheet model. The model entails full physics, a ...
STTR Phase I 2005 Department of DefenseAir Force -
Thermoelectrically Cooled MWIR Avalanche Photodiodes on Silicon Substrates
SBC: EPIR TECHNOLOGIES INC Topic: AF04T021Modern Air Force weapon systems need to detect, recognize and track a variety of targets under a wide spectrum of atmospheric conditions. Recent technology developments are paving the way toward imaging optical radars with wavelengths in MWIR range for these applications. The best suited detectors for optical radars are the avalanche photodiodes (APDs) due to their high gain-bandwidth characterist ...
STTR Phase I 2005 Department of DefenseAir Force -
Demonstration of High Power, High-Brightness IR (1.8-1.9 µm) Strain-Compensated InGaAsP/InGaAs QW Laser Arrays
SBC: EpiWorks, Inc. Topic: AF04010In this work, we will demonstrate military specification compatible 1.8 - 1.85 µm InP-based diode pump laser arrays with a power output exceeding 10 W, the critical milestone necessary to enabling system insertion. These sources can help in the critical development of a variety of military and home security applications, including optical pumping sources for 3-5 µm lasers, chemical sensing, las ...
SBIR Phase II 2005 Department of DefenseAir Force -
Next-Generation 30-45% Efficient Multi-Junction Solar Cell
SBC: EpiWorks, Inc. Topic: AF05023We will demonstrate novel, Si-based technology for ultra-lightweight, high-efficiency, triple junction solar cells. Next-generation satellites require increased payload mass and power budget capabilities. Ultra lightweight, 40% efficient solar cells employing Silicon substrates will reduce array size and solar cell payload mass while still enabling power level scale-up. Our advanced, next gener ...
SBIR Phase I 2005 Department of DefenseAir Force -
High Speed Readout for Photodiode Focal Plane Arrays
SBC: EpiWorks, Inc. Topic: AF05223The objective of this proposal is to design a high-speed readout for photodiode focal plane arrays with sub-nanosecond sampling rates. For active sensing applications, current architectures using CMOS technology can sample up to 400 MHz (2.5 ns). However, photodetectors with bandwidth over 1 GHz, and sampling rates in excess of 1 GHz (less than 1 ns), are needed for numerous battlefield applicatio ...
SBIR Phase I 2005 Department of DefenseAir Force -
An Analysis Process Execution Language and Execution Engine for High Energy Physics
SBC: Fivesight Technologies, Inc. Topic: 09c76276B Current data analysis methodologies in high-energy physics often fall short when managing large scale processing tasks over distributed datasets and used by distributed members within a collaboration or working group. There is no commnon semantic to describe analysis workflow and its attributes for the myriad of complex process types comprising a typical physics study. Without a formal s ...
SBIR Phase II 2005 Department of Energy -
Quantitative In-Situ TEM Nanoindentation Instrument
SBC: HYSITRON, INCORPORATED Topic: 30b75333S Nanoindentation is the primary technique for assessing the nanomechanical behavior of small volumes of materials. With this technique, the force required to produce a given displacement into a sample by a sharp diamond tip is measured, and the hardness of the material being tested is determined analyzing the force-displacement curve. However, the microstructural origins of the measured me ...
SBIR Phase II 2005 Department of Energy