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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.

  1. LOCAETA: Local Climate Air Emissions Tracking Atlas

    SBC: CARBON SOLUTIONS LLC            Topic: C5516c

    Air quality data from top-of-the-line platforms, such as satellites, are difficult to obtain without a high- level of technical knowledge. For this reason, local air quality patterns and trends are often inaccessible to disadvantaged communities (DACs). Many technologies that will be used for deep decarbonization of industrial and power facilities have the added co-benefit of reducing non-CO2 poll ...

    SBIR Phase I 2023 Department of Energy
  2. NECTAR: The Negative CO2 Emission Transition Roadmap

    SBC: CARBON SOLUTIONS LLC            Topic: C5322c

    C53-22c-271119Meeting climate-stabilizing energy transition goals requires using hybrid-energy CO2 capture systems like Direct Air Capture (DAC) to remove billions of tonnes of CO2 from the atmosphere. Deploying this capacity will be difficult because it is complex and energy intensive infrastructure, and there must also be buy- in from communities living in locations best suited for it. The chall ...

    SBIR Phase II 2023 Department of Energy
  3. 08b: Drone-deployable transmission sensor unit for widespread phasor, power quality, and environmental measurement to increase grid throughput, reliability, and efficiency

    SBC: PITCH AERONAUTICS INC.            Topic: C5608b

    Dynamic Line Ratings (DLRs) can dramatically increase transmission line current capacity, allowing increased renewable energy penetration, decreased line congestion, and prevention of line construction. However, DLR implementation highly depends on unmeasured local line wind, solar irradiation, and line conditions. Today these conditions are only modeled or measured at isolated locations along a s ...

    SBIR Phase I 2023 Department of Energy
  4. Enhancement of Bi2212 Powder Consistency to Support Manufacture of High-Performance HTS Wire

    SBC: ENGI-MAT CO            Topic: C5636c

    C56-36c-272696The Department of Energy’s Office of High Energy Physics promotes the development of state-of-the-art particle accelerators for cutting-edge experimentation. To support these advances, improved high- temperature superconducting (HTS) wires are required in order to build high-field magnets that generate magnetic fields greater than 18 T. One key material for the development of HTS w ...

    SBIR Phase I 2023 Department of Energy
  5. Shared Mobility Optimizer

    SBC: TERRACITY LLC            Topic: C5610c

    In the United States, transportation is the leading source of emissions among major industries. This puts pressure on cities to optimize transportation infrastructures to meet decarbonization goals. City planners are required to ingest data from a variety of sources and balance a wide array of priorities ranging from mobility and equality to safety and sustainability. Making decisions for optimal ...

    SBIR Phase I 2023 Department of Energy
  6. Powder Injection Molding Processes for Manufacture of Fast Reactor Nuclear Fuels

    SBC: J FOSTER & ASSOCIATES LLC            Topic: C5640v

    Current methods of manufacturing sodium fast reactor (SFR) fuels are constrained to small window of manufacturability. Powder forming processes could provide unique material advantages over traditional casting and extrusion techniques; however, fuel materials in powder form are highly reactive with oxygen and represent a pyrophoric hazard. U and Pu alloys and ceramics are easily dispersible in pow ...

    SBIR Phase I 2023 Department of Energy
  7. Powder Injection Overmolding of High Burnup Light Water Reactor Fuels

    SBC: J FOSTER & ASSOCIATES LLC            Topic: C5640v

    Globally, the majority of nuclear reactors in operation are light water reactor (LWR) designs and are expected to remain a steadfast low-energy carbon sources for the foreseeable. LWR technology would greatly benefit from fuel materials that can withstand increased burnup, however. By creating a fuel with higher burnup capability, fuels can remain in the reactor longer, leading to less refueling o ...

    SBIR Phase I 2023 Department of Energy
  8. Electrolytic Metal Recovery from Photovoltaic Waste

    SBC: POWERTECH WATER            Topic: C5615b

    Statement of the Problem: Decommissioned solar panels will account for up to 10 million tons of waste in the USA by 2050. PV recycling has seen little development in reclaiming valuable materials present in low concentrations. Copper and silver account for 1% and 0.1%, respectively, of the total waste mass, but represent 7% and 42% of the waste value. To make mass PV recycling economically viable, ...

    SBIR Phase I 2023 Department of Energy
  9. OT-Healer: A Real-time Decentralized Self-Security/Healing Tool for DER OT Resiliency

    SBC: INFOBEYOND TECHNOLOGY LLC            Topic: C5601a

    n DER (Distributed Energy Resource) power delivery systems, the cybersecurity enhancement of OT (Operational Technology) is urgently needed to adapt/survive cyberattacks without disrupting safe operations. However, the modern energy systems with OT and IT systems are connected, allowing cyberattacks to originate in business systems and then migrate to DER energy control systems within the OT envir ...

    SBIR Phase I 2023 Department of Energy
  10. An intensified process for reactive capture of carbon dioxide from the air and its conversion to methanol

    SBC: ADVANCED ENERGY MATERIALS LLC            Topic: C5625b

    C56-25b-273571Direct air capture (DAC) of carbon dioxide (CO2) and its conversion to green platform chemicals can provide a pathway for deep decarbonization of our chemical industry. Such technology can also help with sustainability of carbon containing chemicals. DAC technologies can potentially be used everywhere in conjunction with renewable power sources making them potentially carbon negative ...

    SBIR Phase I 2023 Department of Energy
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