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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.

  1. Telemedicine and Advanced Medical Technology- Medical/Surgical, Mission Support Modeling, and Simulation

    SBC: IMMERSION MEDICAL, INC.            Topic: N/A

    Immersion Medical and the Uniformed Services University of Health Science (USUHS), aims establish the feasibility of a medical training simulator for Central Venous Catheterization (CVC). The proposed project involves several technical advances. Tactilefeedback user interface hardware designs will be researched to serve as a realistic proxy for catheters and other devices used during CVC. This in ...

    STTR Phase I 2001 Department of DefenseArmy
  2. Electrochemical Generation of Hydrogen from Methanol

    SBC: GINER INC            Topic: A11aT012

    The US Army has identified limitations of the DMFC (poor efficiency) and RMFC (complex system, high temperature process) approaches, and is soliciting innovation that will enable high efficiency hydrogen generation from methanol in a simple approach that has minimal thermal signature. It is the objective of this project to address these needs through the development of a novel hybrid electrochemic ...

    STTR Phase I 2011 Department of DefenseArmy
  3. Resonant Tunnelling Diode for High-Power Room-Temperature Terahertz Emission

    SBC: Spire Corporation            Topic: A07T005

    This Phase I STTR proposal involves the specification, conceptual design and analysis of staggered bandgap semiconductor heterostructures capable of producing interband resonant tunneling diodes (I?RTDs) with the potential for producing room-temperature terahertz oscillators with > 10 mW output power levels. Such unprecedented room-temperature terahertz power levels would enable deployment of ent ...

    STTR Phase I 2007 Department of DefenseArmy
  4. Nonlinear Laser Wave Mixing for Trace Detection of Explosives

    SBC: Audentia, Inc.            Topic: A12aT016

    Audentia, Inc., proposes to develop and demonstrate a sensitive nonlinear laser wave mixing-based detector that offers standoff detection of explosive chemicals in their native states at ambient temperature and pressure using a compact rugged solid-state laser-based design. The wave-mixing signal is a coherent laser-like beam, and hence, it offers a standoff detection distance that is longer than ...

    STTR Phase I 2013 Department of DefenseArmy
  5. Hybrid Textile-Based Multi-Layered Flexible System for Penetration Resistance

    SBC: Tex Tech Industries Inc.            Topic: A05T004

    Tex Tech Industries has an effective through thickness reinforced hybrid ballistic fabric that has recently been introduced into the ballistic armor market for police force body armor. Fabric made with this technology was tested for V-50 results using both 9mm projectiles (124g Full Metal jacket) and .22 caliber fragment simulation projectiles( FSP, 17 grain). Result from this testing demonstrate ...

    STTR Phase I 2005 Department of DefenseArmy
  6. Portable Microfluidic Three Component Blood Separator

    SBC: Infoscitex Corporation            Topic: A10AT026

    Infoscitex and Columbia University propose to develop an automated blood component separation system that can quickly and automatically separate blood into three components for the US Army to use under field conditions. In this Phase I program, the team will prove the feasibility of separating whole blood into RBC, platelet rich plasma and acellular plasma using a high volume microfluidic technolo ...

    STTR Phase I 2010 Department of DefenseArmy
  7. Dilution refrigerator technology for scalable quantum computing

    SBC: High Precision Devices, Inc.            Topic: A08T020

    Develop a Pulse Tube Cooler (PTC) driven Dilution Refrigerator (DR) to provide for cryogen free, rapid turn-around for operating large number of qubits. This effort will incorporate low vibration features, high-density and high-speed wiring technology. The proposed system will require no liquid helium, thereby avoiding the cost and availability issues.

    STTR Phase I 2008 Department of DefenseArmy
  8. Minimalist Short-Range Wearable Network for Soldier Training

    SBC: ELINTRIX            Topic: A05T028

    Technological advances in networking, transceiver technology, digital signal processing and embedded systems enable the design of a low power, low cost, wireless communication system that does not restrict the mobility of the subject, or the observer. Prior research has focused on routing and channel access, but has not considered these issues, jointly. In the proposed work, the combined effect o ...

    STTR Phase I 2005 Department of DefenseArmy
  9. Modeling Software and Tools for Reliability Engineering of Micro/Nano-Device Systems and Components

    SBC: NEXTGEN AERONAUTICS, INC.            Topic: A06T002

    Simulation techniques play an important role in material and device design at the nanoscale. Among these techniques, molecular dynamics (MD) simulation has become a powerful tool for revealing complex physical phenomena. However, completely modeling nano-structured materials and nano-devices of tangible size using MD simulation is unrealistic, even when using today’s most powerful supercomputers ...

    STTR Phase I 2006 Department of DefenseArmy
  10. Enhanced Charge Transfer in Biological Molecules on Nanostructured Electrode Surfaces

    SBC: Polestar Technologies, Inc.            Topic: A12aT011

    The overall objective of this program is to enhance significantly charge transfer from biological molecules to nanostructured electrode surfaces. To achieve this objective, we plan to use combination of three approaches: 1) Develop an effective means for integrating the biological molecules onto the anode and cathode surfaces of the nanostructured electrodes, 2) Reduce the distance between the act ...

    STTR Phase I 2012 Department of DefenseArmy
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