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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. Transformational GaN Substrate Technology

    SBC: KYMA TECHNOLOGIES, INC.            Topic: DEFOA0000941

    Kyma Technologies will develop a cost-effective technique to grow high-quality gallium nitride (GaN) by developing a high growth rate process for creating crystalline GaN boules, which are used as a starting material for semiconductor device manufacturing. Currently, growing boules from GaN seeds is slow, expensive, and inconsistent, which negatively affects manufacturing yield and electronic devi ...

    SBIR Phase II 2014 Department of EnergyARPA-E
  2. GaN Substrate Technology

    SBC: KYMA TECHNOLOGIES, INC.            Topic: N/A

    Kyma Technologies will develop a cost-effective technique to grow high-quality gallium nitride (GaN) by developing a high growth rate process for creating crystalline GaN boules, which are used as a starting material for semiconductor device manufacturing. Currently, growing boules from GaN seeds is slow, expensive, and inconsistent, which negatively affects manufacturing yield and electronic devi ...

    SBIR Phase II 2014 Department of EnergyARPA-E
  3. FLAAT Growth Technology for Low Cost Thick High Quality GaN on Thin 8 Sapphir

    SBC: KYMA TECHNOLOGIES, INC.            Topic: 11b

    The use of non-native substrates for GaN- based devices leads to devices with high densities of defects stemming from misfit dislocation formation due to lattice mismatch and large values of wafer bow stemming from thermal mismatch. The latter is particularly problematic as one attempts to grow device films on large area substrates. The high defect densities give rise to degraded performance and r ...

    SBIR Phase II 2014 Department of Energy
  4. Light-weight, Low-volume, High Oxygen Storage Density Material for Self-Contained Breathing Apparatus

    SBC: MAINSTREAM ENGINEERING CORP            Topic: CBD12105

    This proposal outlines Mainstreams successful Phase I feasibility demonstration related to the fabrication of hierarchical hybrid nanomaterials for oxygen storage vessels. These vessels exceed the volumetric and gravimetric storage capacity of an oxygen cylinder by 245% and 170%, respectively. Included in these storage density values is a solid-state oxygen regulation system that also enables comp ...

    SBIR Phase II 2014 Department of DefenseOffice for Chemical and Biological Defense
  5. Publication and Retrieval of Computational Chemical-Physics Data via the Semantic Web

    SBC: CHEMICAL SEMANTICS, INC.            Topic: 09a

    This project is is applying the semantic web to the data produced by chemical-physics simulations. The semantic web allows data to be placed on a web site in a way that computers can understand it. This will allow a computer to browse a giant global graph of data, as an agent for scientists, and integrate this data into new knowledge (meta-data).

    SBIR Phase II 2014 Department of Energy
  6. Development of an Active, Man-Portable, Cooling System for Use with Personal Protective Clothing/Equipment (PPC/PPE)

    SBC: MAINSTREAM ENGINEERING CORP            Topic: 48b

    Mainstream has developed an active cooling system that can provide a cool/dry environment to workers in enclosed protective clothing/equipment. The technology is lightweight, comparable to a small backpack in size, and will improve working conditions so that heat stress is no longer a concern for workers wearing fully encapsulating suits.

    SBIR Phase II 2014 Department of Energy
  7. In-Line Quality and Process Control in Solar and Fuel Cell Manufacturing

    SBC: ULTRASONIC TECHNOLOGIES INC            Topic: 02b

    The program will develop a new quality and process control methodology and tool prototype for real-time inspection of crystalline silicon solar and ceramic solid oxide fuel cells. The Activation Station will be used in-line to reduce cost, save energy and increase yield of solar and fuel cell module production.

    SBIR Phase II 2014 Department of Energy
  8. Microalgae Biofixation of CO2 and Fertilizer Production for Greenhouse Gas Abatement

    SBC: Seaag, Inc.            Topic: 22c

    75974B Microalgae biofixation is a candidate technology for abating the emissions of greenhouse gases, particularly CO2, while simultaneously producing fuels and chemicals. One approach is to use nitrogen-fixing microalgae (cyanobacteria) cultivated in large open ponds and harvested to produce both renewable fuels (e.g., methane, and possibly, in the future, ethanol or hydrogen) and organic nitr ...

    SBIR Phase II 2005 Department of Energy
  9. Hermetic Textile Closure Hardware System

    SBC: SIGMA K CORP            Topic: CBD04110

    Effective collective protection fabrics must have a reliable closure system. During our Phase I Work Plan, Sigma-K began developing a Hermetic Textile Closure Hardware (HATCH) system. The HATCH combines both a magnetic and geometric self locking mechanism that will provide a hermetic seal when closed. Our current Phase I successes include developing self closing samples that can provide a hermetic ...

    SBIR Phase II 2005 Department of DefenseOffice for Chemical and Biological Defense
  10. Improved Fin Designs to Reduce Deffective in Internal-Tin Nb3Sn

    SBC: Supergenics I, Llc            Topic: 04a

    75077S An economical process will be needed to produce super conducting material for the high field magnets that will be used in future accelerators for High Energy Physics (HEP) research. To achieve this economy, it will be necessary to reduce the hysteresis losses that occur in the new high-current-density conductors. One way of doing this is to reduce the size of the super conducting units i ...

    SBIR Phase II 2005 Department of Energy
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