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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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STTR Phase I: Mechanical Surface Treatment for High Performance Biodegradable Implants
SBC: SURFACE INTEGRITY, LLC Topic: BMThe broader impact/commercial potential of this Small Business Technology Transfer (STTR) Phase I project is to shift current practices in bone fracture fixation care from using permanent metal implants to biodegradable metal implants (screws, plates, pins, rods, etc.). A promising biodegradable metal that is gaining widespread attention is magnesium. This project will advance magnesium implant te ...
STTR Phase I 2015 National Science Foundation -
Improved Turbulence Modelling Across Disparate Length Scales for Naval Computational Fluid Dynamics Applications
SBC: COMPUTATIONAL SCIENCES LLC Topic: N15AT002Computational Sciences LLC will collaborate with the Rensselaer Polytechnic Institute (RPI) to develop and validate a stand-alone computational module that naturally accounts for the effects of turbulence. Such fluctuations and transitions may be associated with compressible flows and boundary layer interactions. The module will be designed for implementation in to existing legacy codes for use in ...
STTR Phase I 2015 Department of DefenseNavy -
Grid-Spacing-Independent and Discretization-Order-Independent Simulation for Naval Single-Phase and Two-Phase Flow Applications
SBC: Kord Technologies, Inc. Topic: N15AT002Turbulent shear flows in naval applications are characterized by vastly different lengths and time scales associated with rotor tip vortices and the vortical structures shed from the ship, and additional phase from water drops and water vapor. To tackle the modeling challenges, we propose a novel methodology that combines a vorticity preserving method and a new approach to LES turbulence modeling ...
STTR Phase I 2015 Department of DefenseNavy -
In Situ, Nondestructive Inspection During Additive Manufacturing of Metallic Parts
SBC: APPLIED OPTIMIZATION, INC. Topic: N15AT008The research objective of this proposal is to demonstrate feasibility to collect and interpret in situ 3-D surface data for the laser sintered top surface for each layer in a powder bed process. The 3-D data collection will be performed with no interference with the operational efficiency and build time for the powder bed process. The 3-D data will be utilized to compute the distributions of surfa ...
STTR Phase I 2015 Department of DefenseNavy -
ICME Method for Additively Manufacturing Electronic Heat Exchangers
SBC: Faraday Technology, Inc. Topic: N15AT019The proposed program will develop an integrated computational material engineering (ICME) toolbox that can enable improved heat exchangers (HX) designs by utilizing the design and manufacturing flexibility offered by use of additive manufacturing (AM). To accomplish this goal Faraday has composed a team of experts in AM (NC State and CalRAM), non-destructive evaluations (NDE) analysis (UC), ICME p ...
STTR Phase I 2015 Department of DefenseNavy -
Time-resolved Measurements of Temperature and Product Mass Fractions within Detonation-based Combustion Devices at Elevated Pressures and Temperatures
SBC: INNOVATIVE SCIENTIFIC SOLUTIONS INC Topic: N15AT021The Phase I research effort proposed here is to design and demonstrate first-generation laser-absorption-based sensors for time-resolved measurements of combustion-product mass fractions and gas temperature within the detonation channels and at the nozzle exit plane of rotating-detonation-engine (RDE) systems. An important element of this work will be the development of criteria to optimize the se ...
STTR Phase I 2015 Department of DefenseNavy -
Absorption Spectroscopy System for Measurements of H2O, CO2 and CO Temperatures and Concentrations in Rotating-Detonation-Engines at 800 kHz
SBC: SPECTRAL ENERGIES LLC Topic: N15AT021The objective of the proposed Phase-I effort proposed by Spectral Energies LLC is to develop a versatile hyperspectral sensor system capable of performing >100 kHz in situ temperature and species concentration measurements of CO, CO2 and H2O in rotating detonation engines (RDEs) for gas temperatures up to 3000 K and gas pressures up to 50 bar. Development will include both the laser system as well ...
STTR Phase I 2015 Department of DefenseNavy -
Ultrafast Multispecies Gas Sensor for Combusting Flows
SBC: SOUTHWEST SCIENCES INC Topic: N15AT021Spectroscopic measurement of gases in combustors is notoriously difficult due to constraints imposed by severe operating conditions, including high temperatures and pressures, vibration, soot, limited optical access, and acoustic noise. Nevertheless, these kinds of measurements can provide critical information on the combustion processes occurring and are critical toward understanding the chemical ...
STTR Phase I 2015 Department of DefenseNavy -
STTR Phase I: Advanced Manufacturing Processes for Multiple Field Freeform Microlens Arrays for Ultra-Low Cost Medical Endoscopy
SBC: Ohio Surgical Optics, LLC Topic: MNThe broader impact/commercial potential of this Small Business Technology Transfer Research (STTR) Phase I project is that smaller and less expensive medical endoscopes will be made possible, which will allow physicians to see better inside the human body. These devices will shorten recovery times, improve diagnosis and treatment, move procedures from operating rooms to exam rooms, and lower healt ...
STTR Phase I 2015 National Science Foundation -
STTR Phase I: New dwarfing genes to improve yield and abiotic stress tolerance in wheat
SBC: Gene shifters, LLC Topic: BTThe broader impact/commercial potential of this Small Business Technology Transfer (STTR) project is the improvement of wheat yields by introducing newly identified dwarfing genes. The currently used dwarfing genes, which were instrumental in bringing about the "green revolution", are at least partly responsible for this bottleneck. These dwarfing genes, present in more than 90% of the wheat varie ...
STTR Phase I 2015 National Science Foundation