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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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A Comprehensive Web Infrastructure for Standardizing, Storing, and Launching Density Functional Calculations of Materials and Chemical Compounds
SBC: Citrine Informatics, Inc. Topic: 09aDensity functional theory is used by many researchers funded by the Department of Energy as a method for predicting the behavior of chemicals and materials used in energy applications. However, results of these calculations are often not standardized and, even when they are, expert-level understand of the methods is needed in order to properly perform a simulation. The energy research community a ...
STTR Phase I 2016 Department of Energy -
A Comprehensive Web Infrastructure for Standardizing, Storing, and Launching Density Functional Calculations of Materials and Chemical Compounds
SBC: Citrine Informatics, Inc. Topic: 9aDensity functional theory is used by many researchers funded by the Department of Energy as a method for predicting the behavior of chemicals and materials used in energy applications. However, results of these calculations are often not standardized and, even when they are, expert-level understand of the methods is needed in order to properly perform a simulation. The energy research community a ...
STTR Phase II 2016 Department of Energy -
26(a): High Duty Cycle Inverse Free Electron Laser
SBC: RADIABEAM TECHNOLOGIES, LLC Topic: 26aLaser based advanced accelerators can achieve very high accelerating gradients, but their duty cycle is limited by the laser power availability and media recovery time. Inverse Free Electron Laser (IFEL) is a vacuum farfield laser accelerator scheme which does not rely on a medium (plasma) or a structure (metal or electric) and therefore is potentially capable of accelerating charged particles ver ...
STTR Phase II 2016 Department of Energy -
Algal Bioflocculation for SolidLiquid Separation
SBC: MICROBIO ENGINEERING INC Topic: 12cA key requirement for microalgae biofuels production is a very low cost harvesting technology. Commercially available solidliquid separation technologies applicable to microalgae, such as chemical coagulation, membrane separations and centrifugation, are too costly for biofuels production or other lowcost microalgae processes, such as wastewater treatment. A low cost harvesting process is bio floc ...
STTR Phase II 2016 Department of Energy -
A Mesh Free Framework for Mechanical Simulations of Microstructure Data Files
SBC: CFD RESEARCH CORPORATION Topic: 07aThe Exascale Computing Project is tasked to develop the next generation of high performance computing systems capable of computing at 50 to 100 times faster than current HPC systems. Computing at this extreme-scale will significantly enhance the value of materials modeling and simulation to basic materials research and engineering In particular, computing at the extreme scale will enable a higher ...
STTR Phase I 2019 Department of Energy -
A Multi-channel Radiation-tolerant, Low-power, High-speed, and Resolution Analog-to-Digital Converter for Nuclear Physics Detectors
SBC: APOGEE SEMICONDUCTOR, INC. Topic: 28bCost-effective and power-efficient radiation tolerant semiconductors are needed in various harsh environments, such as particle detectors, communication satellites, high-altitude avionics and medical imagining equipment. These include amplifiers, voltage regulators, analog-to-digital converters (ADCs) and digital logic circuitry. However, radiation-tolerant high-speed ADCs currently cost more than ...
STTR Phase II 2019 Department of Energy -
A Multi-physics Analysis Capability for Engine Materials
SBC: Sunergolab Inc. Topic: 03bComputer-aided Engineering software that apply the Finite Element Method to perform a multi-physics analysis have received widespread acceptance for traditional macro-scale material systems. Challenges persist in the modeling of complex coupled processes in environmental/thermal barrier coatings (E/TBCs) used to protect substrate material against the corrosive environment in the hot section parts ...
STTR Phase I 2019 Department of Energy -
An electrode-based resistivity tool for fracture diagnostics in steel-cased wellbores
SBC: E-Spectrum Technologies, Inc. Topic: 19Hydraulic fractures must be contained within the target formation so that they do not contact and potentially contaminate sources of drinking water. To mitigate this risk, research is needed to develop technologies that will advance our ability to diagnose, quantify, and map hydraulic fractures and thus help mitigate the danger that hydraulic fracturing results in the contamination of subsurface p ...
STTR Phase I 2016 Department of Energy -
A Novel, Microscale, Distributable Sensor Technology for Ionizing Radiation
SBC: CFD RESEARCH CORPORATION Topic: DTRA14B004Terrorist use of radioactive nuclear materials via nuclear and/or radiological dispersion devices (dirty bombs) is a serious threat. Therefore, it is crucial to detect proliferation of nuclear material. Critical challenges include: (a) high sensitivity detection of signature emissions from radioactive isotopes, and (b) cost-effectiveness for deployment of sensor networks across large storage facil ...
STTR Phase II 2019 Department of DefenseDefense Threat Reduction Agency -
Automatic Calibration of High-Performance Metrological Instrumentation
SBC: Abeam Technologies Inc. Topic: 04cIn this project, aBeam will further develop and commercialize the metrology application developed by scientists at Lawrence Berkeley National Laboratory and supported by their patent. The product will improve the capabilities of high-performance metrological instrumentation. Our technology is the enabler of well characterized quantitative metrology at the nanoscale that does not exist thus far.
STTR Phase II 2017 Department of Energy