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NOTE: The Solicitations and topics listed on this site are copies from the various SBIR agency solicitations and are not necessarily the latest and most up-to-date. For this reason, you should visit the respective agency SBIR sites to read the official version of the solicitations and download the appropriate forms and rules.

Displaying 17051 - 17060 of 18150 results
  1. N23A-T015: Scalable Net-Zero JP-10 Production from Non-Fossil Fuel Resources

    Release Date: 01-11-2023Open Date: 02-08-2023Due Date: 03-08-2023Close Date: 03-08-2023

    OUSD (R&E) CRITICAL TECHNOLOGY AREA(S): Trusted AI and Autonomy OBJECTIVE: Develop a scalable prototype system to produce JP-10 from non-fossil sustainable energy resources. DESCRIPTION: The objective is to develop a scalable synthetic approach to producing JP-10 that meets military specification, MIL-DTL-87107E from non-fossil sustainable energy resources such as carbon dioxide (CO2), biomass, ...

    STTRPhase IDepartment of DefenseNavy
  2. N23A-T016: Lightweight Turbogenerator for Vertical Take-off and Landing Unmanned Aerial Systems- in Marine Environments

    Release Date: 01-11-2023Open Date: 02-08-2023Due Date: 03-08-2023Close Date: 03-08-2023

    OUSD (R&E) CRITICAL TECHNOLOGY AREA(S): Trusted AI and Autonomy;Integrated Network Systems-of-Systems OBJECTIVE: Develop a lightweight (prioritizing weight above efficiency) integral turbogenerator in a compact package intended for embedded integration into a Vertical Take-off and Landing Unmanned Aerial System (VTOL UAS) for support of high-power conditions on takeoff and landing. DESCRIPTION: ...

    STTRPhase IDepartment of DefenseNavy
  3. N23A-T017: Coherent Sensing Approaches for Dynamic Spectrum Allocation

    Release Date: 01-11-2023Open Date: 02-08-2023Due Date: 03-08-2023Close Date: 03-08-2023

    OUSD (R&E) CRITICAL TECHNOLOGY AREA(S): FutureG; Trusted AI and Autonomy OBJECTIVE: Design a distributed, coherent sensing solution to generate a spectrum map of available channels in sparse or dense spectral environments for channel allocation in a decentralized multi-hop network. Develop a scheme for sharing spectrum sensing results across the network for all channels to reach distributed conse ...

    STTRPhase IDepartment of DefenseNavy
  4. N23A-T018: Reliable Hydroxyl-Terminated PolyButadiene for Rocket Motors

    Release Date: 01-11-2023Open Date: 02-08-2023Due Date: 03-08-2023Close Date: 03-08-2023

    OUSD (R&E) CRITICAL TECHNOLOGY AREA(S): Hypersonics OBJECTIVE: Establish combined modern analytical methods and a resultant predictive model for characterizing Hydroxyl Terminated PolyButadiene (HTPB) polymer binder resin in parallel with chemical cure, mechanical properties, and aging assessments, to support the successful development and use of military grade HTPB in existing and emerging solid ...

    STTRPhase IDepartment of DefenseNavy
  5. N23A-T019: Electrochemical Machining of Turbine Engine Components

    Release Date: 01-11-2023Open Date: 02-08-2023Due Date: 03-08-2023Close Date: 03-08-2023

    OUSD (R&E) CRITICAL TECHNOLOGY AREA(S): Advanced Materials OBJECTIVE: Develop an electrochemical machining process which has lower up-front non-recurring engineering expenses while still enabling fast material removal for a reduction in machining times of turbine engine components and enabling more fuel efficient gas turbine engines. DESCRIPTION: Electrochemical machining (ECM) processes have be ...

    STTRPhase IDepartment of DefenseNavy
  6. N23A-T020: Scalable Production of Carbon-Based Composites from Sequestered Environmental Carbon

    Release Date: 01-11-2023Open Date: 02-08-2023Due Date: 03-08-2023Close Date: 03-08-2023

    OUSD (R&E) CRITICAL TECHNOLOGY AREA(S): Trusted AI and Autonomy OBJECTIVE: Develop a low-cost, energy efficient synthetic approach to producing carbon-based composites from environmental carbon resources. DESCRIPTION: The objective of this STTR topic is to develop a low-cost, low-energy synthetic approach to producing carbonaceous materials to be used in carbon-based composites to advance defens ...

    STTRPhase IDepartment of DefenseNavy
  7. N23A-T021: Autonomous, Long-Duration, Directional Ambient Sound Sensor

    Release Date: 01-11-2023Open Date: 02-08-2023Due Date: 03-08-2023Close Date: 03-08-2023

    OUSD (R&E) CRITICAL TECHNOLOGY AREA(S): Trusted AI and Autonomy OBJECTIVE: Develop an autonomous, long-duration, directional ambient sound sensing system capable of being integrated into a variety of platforms including floats, gliders, and ocean observation buoys. The system should output soundscape-related information in a manner that is scaled to match platform communications bandwidth. DESCR ...

    STTRPhase IDepartment of DefenseNavy
  8. N23A-T022: Lightweight Mirrors for Microsatellites and Small Satellites

    Release Date: 01-11-2023Open Date: 02-08-2023Due Date: 03-08-2023Close Date: 03-08-2023

    OUSD (R&E) CRITICAL TECHNOLOGY AREA(S): Space Technology OBJECTIVE: Develop innovative manufacturing methods to produce high-quality lightweight optical mirrors for use in space on microsatellites (microsats) and small satellites (smallsats), particularly at ultraviolet (UV) and extreme ultraviolet (EUV) wavelengths. DESCRIPTION: The Navy seeks improvements in the manufacturing of lightwei ...

    STTRPhase IDepartment of DefenseNavy
  9. N23A-T023: Integrated Optical Imaging of the Environment on Underwater Autonomous Vehicles

    Release Date: 01-11-2023Open Date: 02-08-2023Due Date: 03-08-2023Close Date: 03-08-2023

    OUSD (R&E) CRITICAL TECHNOLOGY AREA(S): Trusted AI and Autonomy OBJECTIVE: Advance integration of camera imagery collection and onboard processing for environmental sensing on low-power, long-duration oceanic gliders and/or profiling floats. The system should allow for two-way communication between the sensor and platform microcontrollers; and software architecture should be tunable to specific p ...

    STTRPhase IDepartment of DefenseNavy
  10. N23A-T024: Compact Condensers Enabled by Additive Manufacturing

    Release Date: 01-11-2023Open Date: 02-08-2023Due Date: 03-08-2023Close Date: 03-08-2023

    DESCRIPTION: Cooling of high power electronics via refrigerant evaporation presents a significant opportunity to reduce the size, weight, and power (SWaP) consumed by thermal management systems. Recent advances have led to demonstration of compact microchannel evaporators with heat transfer coefficients in excess of 100 kW/m2^K and low pumping powers. Condensers are often the largest component in ...

    STTRPhase IDepartment of DefenseNavy
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