You are here
The Award database is continually updated throughout the year. As a result, data for FY23 is not expected to be complete until September, 2024.
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.
Integrated Computational Material Engineering Approach to Additive Manufacturing for Stainless Steel (316L)SBC: SENVOL LLC Topic: N16AT022
The objective in this project is to implement and validate a probabilistic qualification framework that will enable additive manufacturing (AM) materials and part qualification through the use of a data-driven predictive model within a statistical framework. Senvol seeks to develop and validate a data-driven ICME probabilistic framework for assisting qualification of AM materials and parts. Phase ...STTR Phase II 2018 Department of DefenseNavy
SBC: COLDQUANTA, INC. Topic: AF17AT028
ColdQuanta is partnering with Dr. Zoya Popovic at the University of Colorado, Boulder, to develop a three-dimensional quantum-enhanced radio-frequency (RF) signal sensor and direction finder. Our approach combine Rydberg-atom-based RF electrometry and discrete lens arrays (DLAs) of planar antennas. The DLA will serve as a Fourier optic for an incident wave, and a Rydberg-atom RF electrometer will ...STTR Phase I 2018 Department of DefenseAir Force
SBC: HYPRES, INC. Topic: AF17AT028
In this STTR phase I, HYPRES and University of California Riverside will demonstrate the feasibility of a three-dimensional electromagnetic (EM) sensor for accurate vector sensing and geo-location of complex RF emitters exploiting the novel quantum electrodynamic properties stemming from innovations in superconducting nanoelectronics specifically in utilizing direct-write, high temperature superco ...STTR Phase I 2018 Department of DefenseAir Force
SBC: SRICO INC Topic: A12aT023
SRICO proposes to combine metamaterial narrowband absorbers and SRICO-proprietary thin film pyroelectric thermal detectors to produce ultra low size, weight, power and cost (SWAP-C) room temperature stand-off chemical sensors. Metamaterial narrowband absorber elements are integrated into the thin film pyroelectric detector process to provide conversion of radiation to heat, which is then sensed by ...STTR Phase II 2014 Department of DefenseArmy
SBC: UES INC Topic: MDA09T002
This Phase II STTR program seeks a new fabrication method to produce stronger (>100 kpsi) and tougher (>10 MPam1/2) ultra-high temperature HfC-based composites (UHTC) with an outstanding oxidation resistance for advanced rocket nozzle throat components. UES will apply a novel"Top Down"approach to control the microstructures of the composites. This approach will produce a very unique grain structur ...STTR Phase II 2014 Department of DefenseMissile Defense Agency
SBC: EMAG TECHNOLOGIES, INC. Topic: A12aT002
In this STTR proposal, we propose a novel computational technology for analyzing millimeter wave and sub-millimeter wave scattering from complex and electromagnetically extended objects and environments. The core of our formalism lies in a technique for rapidly calculating and coherently adding fields produced by different scatterer constituents, ranging from conducting, flat surfaces to penetrabl ...STTR Phase II 2014 Department of DefenseArmy
SBC: DELTA GROUP INTERNATIONAL LLC Topic: A14AT001
A novel and new method of measuring the far-field noise of a helicopter is proposed by the Delta Group International/University of Maryland team that uses a hot-air-balloon as the measurement platform. The method meets the Army STTR objectives of being capable of measuring helicopter noise above and near the tip-path-plane of the helicopter without measurable ground reflections. The new method i ...STTR Phase I 2014 Department of DefenseArmy
SBC: SECURBORATION, INC. Topic: A12aT009
The rapid ascent and adoption of social media as the dominant form of communication has led to significant analysis challenges. In particular, there is a gap in theoretically informed methods to analyze data mined and collected from social media. One primary cause of this gap is the lack of fusing structural sources of information (e.g. social network topology) with non-structural sources (message ...STTR Phase II 2014 Department of DefenseArmy
Liquid Crystal-based Sensors for Detection of Airborne Toxic Chemicals for Integration with Unmanned Robotic SystemsSBC: Platypus Technologies, LLC Topic: A13AT004
In Phase I we successfully reached all goals and milestones in developing liquid crystal sensors that detected 100 ppb of each of four target gases (DMMP, hydrogen sulfide, nitrogen dioxide and ammonia) within 60 seconds. In Phase II, we propose to expand this detection capability to a total of seven gases, adding volatile organic compounds, chlorine and half-mustard to the set. We then propose ...STTR Phase II 2014 Department of DefenseArmy
SBC: AGNITRON TECHNOLOGY, INC. Topic: A13AT006
This project address the fabrication of solar blind detectors from the MgZnO material system. Both MBE and MOCVD material growth techniques will be used for deposition of the required material layers. Simulation software we be used to aid in the design of the photodetector structure. Devices will be fabricated from the grown structures and their electrical and optical characteristics determined.STTR Phase II 2014 Department of DefenseArmy