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Award Data

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The Award database is continually updated throughout the year. As a result, data for FY21 is not expected to be complete until September, 2022.

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.

  1. Ion-Implanted 2-D MESFET Technology for Wireless Communications

    SBC: Advanced Device Technologies,            Topic: N/A

    This Phase I project has two primary objectives. The first objective is to evaluate the feasibility of a fully ion implanted fabrication process based on the heterodimensional 2-D MESFET. The new device, the 2-D JFET, will have p+ ion implanted sidegates which laterally modulate a thin, highly doped n-type conducting channel. The 2-D JFET should have excellent high speed, low power characteristics ...

    SBIR Phase I 1997 Department of DefenseMissile Defense Agency
  2. Solid State Neutron Sensor

    SBC: Applied Sciences Inc.            Topic: N/A

    Unexpected coupling between nuclear reaction cross sections and the solid state of metal deuterides has been demonstrated in layered Pd-PdO deuterided structures. As a result, high rates of charged particle and neutron measurements have been observed through a reaction initiated by altering the chemical state of the system. Moreover, the system acts as an amplifier of fast neutrons, with a 200-to- ...

    SBIR Phase I 1997 Department of DefenseMissile Defense Agency
  3. A Novel Technique for Processing Advance Composites and Joining/Bonding Epoxy

    SBC: Applied Sciences Inc.            Topic: N/A

    The development of a microwave curing method for resin matrix composites and jointing/bonding epoxy is proposed. This technique will take advantage of the ability of vapor-grown carbon fiber (VGCF) to absorb microwave energy with high efficiency. By adding VGCF to resin matrix composite material and epoxy, we hope that the materials can be processed by microwave irradiation in a manner that result ...

    SBIR Phase I 1997 Department of DefenseMissile Defense Agency
  4. InGaP/InGaAs-on-Ge Concentrator Solar Cells for Space Power Generation

    SBC: Essential Research, Inc.            Topic: N/A

    Essential Research, Inc. proposed to develop an ultra-high efficiency, dislocation-free, monolithic two-terminal, two-junction InGaP/InGaAs on Ge solar cells for space applications. The energy bandgap (Eg) values for the top and bottom cells will be 1.7 eV and 1.1 eV, respectively. These bandgaps are theoretically optimal for a two-junction tandem cell configuration. This solar cell will have a pr ...

    SBIR Phase I 1997 Department of DefenseMissile Defense Agency
  5. Ionic Self Assembled Monolayer (ISAM) Processes for Electronic Materials and Devices

    SBC: Luna Innovations Incorporated            Topic: N/A

    Novel ionic self-assembled monolayer (ISAM) processes for the fabrication of advanced electronic materials and devices will be developed through this program. Revolutionary ISAM methods to create nanostructured multi-layer inorganic/organic thin-films offer major advantages over conventional manufacturing processes, since the process is simple, low-cost and environmentally friendly in that no vola ...

    SBIR Phase I 1997 Department of DefenseMissile Defense Agency
  6. Protective Coatings for Optical System Components Fabricated Using Ionic Self Assembled Monolayer (ISAM) Processes

    SBC: Luna Innovations Incorporated            Topic: N/A

    F&S and Virginia Tech will cooperatively develop high performance protective ionic self-assembled monolayer (ISAM) organic/inorganic coatings for space-based optical and structural components, and work with Litton to upscale practical coating manufacturing. Revolutionary ISAM methods of creating multi-layer protective nanopartwcle films offer major advantages over con-ventional coating processes, ...

    SBIR Phase I 1997 Department of DefenseMissile Defense Agency
  7. Novel Processing of Permanent Magnetic Materials via Dynamic Magnetic Compaction (DMC) Process to Obtain High Energy Density at High Temperature (300-

    SBC: IAP RESEARCH, INC.            Topic: N/A

    Current rare earth permanent magnets have proven to be in adequate for higher temperatures (300-500_C) military and Air Force applications. Development of permanent magnetic materials which can operate in high temperature regime will enable design of simpler, more efficient magnetic systems. The More Electric Aircraft (MEA) concept pursued by the US Air Force drives this need. We propose a novel p ...

    SBIR Phase I 1997 Department of DefenseMissile Defense Agency
  8. Thermally Insulated Flexible Composite Cores for Aerospace Applications

    SBC: Infinite Materials & Products, Inc.            Topic: N/A

    Aerospace composite panels containing a core structure usually use an expanded honeycomb of either aluminum, NOMEX, or carbon fiber. These types of composite panels are often used as structure since the honey-comb core provides stiffness in the "Z" direction. However, they provide no thermal insulation value. Aerospace craft operating both inside and outside the earth's atmosphere experience envir ...

    SBIR Phase I 1997 Department of DefenseMissile Defense Agency
  9. Environmentally Safe, Sprayable, Waterproof, Rapid Three Minute Room Temperature Cure Resin for the Manufacturing of Aerospace Composite Sealants

    SBC: Infinite Materials & Products, Inc.            Topic: N/A

    Currently manufactured aerospace composites absorb water vapor to varying degrees. This moisture absorption adds weight to the composite, however, it lowers the glass transition temperature. And, subsequently, the ultimate strength of the resin holding the composite together, in the total composite matrix. For aerospace vehicles that slip the bonds of Earth and enter the vacume of space, any compo ...

    SBIR Phase I 1997 Department of DefenseMissile Defense Agency
  10. Solid State Raman Image Amplifier

    SBC: LITE CYCLES, INC.            Topic: N/A

    This Small Business Innovative Research Phase I project will focus on the development of a compact, rugged, low-maintenance, cost-effective, all Solid-State Raman Image Amplifier (SSRIA) capable of amplifying low-level LIDAR images and producing gated images with potential gate times of less than a nanosecond. The innovative technology to be implemented is based on a solid-state stimulated Raman s ...

    SBIR Phase I 1997 Department of DefenseMissile Defense Agency
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