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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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Night Owl Universal Optics for Uncooled LWIR Applications
SBC: Advanced Optical Systems, Inc Topic: N/A"ADVANCED OPTICAL SYSTEMS, INC. (AOS) offers an innovative approach to the development of universal, inexpensive optics for uncooled IR applications with their Night Owl design. The requirements of small f-number optics and variable focal length to ensureuniform testing of various uncooled IR detectors are investigated. The proposed solution offers three f/1, diffraction limited systems for NetF ...
SBIR Phase II 2002 Department of DefenseArmy -
ENHANCING INFORMATION USE IN DECISION MAKING: AGRIBUSINESS AND CLIMATE INFORMATION
SBC: Agricultural Education & Con Topic: N/AINFORMATION USE HAS BEEN IDENTIFIED AS A KEY FACTOR IN ENHANCING COMPETITIVENESS OF THE NATION'S INDUSTRIES. THE RESEARCH PROPOSED WOULD RIGOROUSLY EVALUATE CURRENT IMPEDIMENTS TO EFFECTIVE USE, DEFINE POTENTIAL ECONOMIC VALUE OF ENHANCED USE, AND EXPLORE THE OPPORTUNITY FOR COMPUTERIZED DECISION AIDS TO INCREASE INFORMATION EFFECTIVENESS IN DECISIONMAKING. THESE GOALS WOULD BE INVESTIGATED FOR TH ...
SBIR Phase I 1987 National Science Foundation -
SBIR/STTR Phase I:Surface Modification to Direct Cell Behavior
SBC: ALLVIVO VASCULAR, INC. Topic: N/AThis Small Business Innovation Research (SBIR) Phase I project will develop a surface coating technology that will be used to create improved materials for regulating cell behavior for research, tissue engineering and cell therapy applications. For these applications, advanced materials are needed that display multiple types of active proteins, while preventing nonspecific protein adsorption. Curr ...
SBIR Phase I 2002 National Science Foundation -
SUPERCONDUCTING ACCELERATING RESONATOR FOR VERY LOW VELOCITY IONS
SBC: Applied Superconductivity Inc Topic: N/ASUPERCONDUCTING HEAVY-ION BOOSTERS ARE LIMITED IN THEIR MASS RANGE BY THE VELOCITY ACCEPTANCE OF THE RESONATORS IN THEIR FIRST SECTIONS. A NEED HAS ARISEN TO DO NUCLEAR PHYSICS IN MASS RANGES INACCESSIBLE WITH EXISTING ACCELERATING STRUCTURES. THE END PRODUCT THAT WOULD RESULT FROM THIS RESEARCH IS AN ACCELERATING RESONATOR WITH AN UPPER MASS ACCEPTANCE 50% LARGER THAN EXISTING STRUCTURES. OUR EXP ...
SBIR Phase II 1985 National Science Foundation -
SBIR Phase II: A New Pseudo Amorphous High Temperature Oxide Material
SBC: APPLIED THIN FILMS, INC Topic: N/AThis Small Business Innovation Research (SBIR) project will investigate the use of a new high temperature amorphous oxide material, CerablakTM, as a protective coating on components used in the molten aluminum industry. CerablakTM is a newly discovered sol-gel derived material that is thermally stable up to 1400 degrees Celsius over many hours. A patented precursor is used to form a continuous, de ...
SBIR Phase II 2002 National Science Foundation -
SBIR Phase II: A New Pseudo Amorphous High Temperature Oxide Material
SBC: APPLIED THIN FILMS, INC Topic: N/AThis Small Business Innovation Research (SBIR) project will investigate the use of a new high temperature amorphous oxide material, CerablakTM, as a protective coating on components used in the molten aluminum industry. CerablakTM is a newly discovered sol-gel derived material that is thermally stable up to 1400 degrees Celsius over many hours. A patented precursor is used to form a continuous, de ...
SBIR Phase I 2002 National Science Foundation -
SBIR/STTR Phase I: Cartilage Repair by Autologous Tissue Engineered Implant
SBC: ARTICULAR ENGINEERING, LLC Topic: N/AThis Small Business Innovation Research (SBIR) Phase I project proposes to define methodology to facilitate the growth of engineered cartilage tissue. Recent studies have demonstrated that the alginate recovered chondrocyte (ARC) method can be used to stimulate isolated adult articular chondrocytes in vitro to form viable cartilaginous tissue with good physicochemical properties. The innovation of ...
SBIR Phase I 2002 National Science Foundation -
HIGH RESOLUTION DIGITAL RADIOGRAPHIC NDE OF LAMINAR BONDS IN COMPOSITE MATERIALS USING DISCRETE DETECTORS
SBC: BIO-IMAGING RESEARCH, INC. Topic: N/ATHIS PHASE I SBIR PROGRAM PROPOSES TO DETERMINE THE FEASIBILITY OF USING HIGH-RESOLUTION DIGITAL RADIOGRAPHY (DR), LAMINOGRAPHY, AND COMPUTED TOMOGRAPHY (CT) TO EXAMINE LAMINAR BONDS IN COMPOSITE SAMPLES SUPPLIED BY THE ARMY. THE PROJECT WILL UTILIZE DISCRETE, SOLID-STATE X-RAY DETECTORS DESIGNED AND BUILT BY BIO-IMAGING RESEARCH, INC. THE PHASE I PROGRAM WILL ALSO RECOMMEND A PRELIMINARY DESIGN F ...
SBIR Phase I 1987 Department of DefenseArmy -
Modeling and Diagnostics of Gel Propellant Mixing and Combustion
SBC: CFD RESEARCH CORPORATION Topic: N/A"In Phase I, CFDRC demonstrated a one-of-a-kind transient bipropellant spray combustion modeling capability for gel propulsion. A single element spray rig was fabricated and tested with inert gels to qualitatively characterize the gel spray pattern for thenumerical simulations. CCD photography and planar laser illumination (PLI) diagnostics techniques were demonstrated. A comprehensive plan for ...
SBIR Phase II 2002 Department of DefenseArmy -
SBIR/STTR Phase I:Development of Reduced Engineering Models for Prediction of Growth of Ternary III-V Semiconductor Materials Grown by MetalOrganic Vapor Phase Epitaxy
SBC: CFD RESEARCH CORPORATION Topic: N/AThis Small Business Innovation Research (SBIR) Phase I study is aimed toward development of an efficient procedure for predicting growth of ternary III-V semiconductor materials grown by Metal Organic Vapor Phase Epitaxy (MOVPE). These techniques are now used extensively in the semiconductor industry to model growth of materials on substrates by chemical vapor deposition. The success of such model ...
SBIR Phase I 2002 National Science Foundation