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The Award database is continually updated throughout the year. As a result, data for FY20 is not expected to be complete until September, 2021.

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. Cure in Place Hybridsil Polyimide Materials for Next Generation Additively Manufactured TPS Heat Shields

    SBC: Nanosonic Inc.            Topic: T12

    Through the proposed NASA STTR, NanoSonic and Virginia Tech will design and empirically optimize an innovative, commercially scalable additive manufacturing process integrating reactively deposited HybridSil polyimide nanocomposites for next-generation Thermal Protection Systems (TPS) employed on human rated spacecraft. NanoSonicrsquo;s material technology and Virginia Techrsquo;s additive manufac ...

    STTR Phase I 2019 National Aeronautics and Space Administration
  2. Testing of COTS Systems in Space

    SBC: Streamline Automation, LLC            Topic: T6

    For long duration space missions beyond LEO, the complexity of the missions and the latency of communications with Earth will require HPC systems that would be prohibitively expensive if qualified under traditional guidelines for high reliability space systems. There is a wealth COTS hardware that could potentially be used for HPC systems for non-critical tasks within heavily shielded spacecraft c ...

    STTR Phase I 2019 National Aeronautics and Space Administration
  3. Enhanced Real Time Distributed Strain and Temperature Monitoring for Rocket Ground Testing

    SBC: Intelligent Fiber Optic Systems Corporation            Topic: T13

    IFOS proposes an innovative Brillouin sensing system ndash; B*Sensetrade; ndash; for enhanced, distributed strain and temperature measurements in harsh environments. Brillouin sensing provides both temperature and strain measurement along the entire length of fiber, allowing the entire fiber to act as a sensor. B*Sensetrade; will enable identification of defects, such as fatigue cracking or excess ...

    STTR Phase I 2019 National Aeronautics and Space Administration
  4. Nanoporous Carbon Nitride Photocatalyst Based Water Recovery System

    SBC: CertainTech, Inc            Topic: T6

    Water recovery from wastewater sources is key to long duration human exploration missions. Without substantial water recovery, life support system launch weights are practically impossible. Water recovery systems currently used on the international space station (ISS) are complex, involving high temperature and pressures to recycle water from humidity condensate and urine.nbsp; The process also us ...

    STTR Phase I 2019 National Aeronautics and Space Administration
  5. Electric Field Prediction and Mapping Methods Within Spacecraft Enclosures

    SBC: Sonelite, Inc.            Topic: T5

    The proposed innovation is a new simulation tool for NASArsquo;s prediction and mitigation of hazardous electric fields created within the payload enclosure and similar electromagnetic field cavities of a launch vehicle and a spacecraft. The research will extend existing statistical power balance modeling methods to specific NASA requirements, includingnbsp; 1) Mapping the different electric field ...

    STTR Phase I 2019 National Aeronautics and Space Administration
  6. Dual Mode Green Monopropellant Propulsion System for Interplanetary Missions

    SBC: Plasma Processes, LLC            Topic: T2

    Today many spacecraft carry two propulsion options: high thrust required for high acceleration maneuvers such as orbit insertion and rapid response; and low thrust required for station keeping and less critical maneuvers. A new class of non-toxic monopropellants, such as AF-M315E and LMP-103S, perform well in both high and low thrust regimes. Significant investments are maturing both monopropellan ...

    STTR Phase I 2019 National Aeronautics and Space Administration
  7. Distributed Multi-GNSS Timing and Localization (DiGiTal) 2.0 for Nanosatellites

    SBC: Tyvak Nano-Satellite Systems, Inc.            Topic: T4

    he Distributed Multi-GNSS Timing and Localization (DiGiTaL) 2.0 system will leverage an existing partnership between Tyvak and the Stanfordrsquo;s Space Rendezvous Laboratory (SLAB) to advance the development required to provide precise knowledge of absolute and relative states of multiple orbiting nanosatellites necessary to mimic a gigantic spacecraft though a swarm of spacecraft with adjustable ...

    STTR Phase I 2019 National Aeronautics and Space Administration
  8. Metal-Organic Framework-Sensitized ChemFET Sensors for Spacecraft Water Monitoring Systems

    SBC: Nanosonic Inc.            Topic: T6

    The objective of this STTR research effort is to demonstrate the use of select metal-organic framework (MOF) constructs as active, multi-analyte sensing element in spacecraft water monitoring systems. MOFs are extended one, two, and three-dimensional coordination networks with uniform porosity and large surface area. The rational selection of both the metal cluster nodes and multi-dentate linkers ...

    STTR Phase I 2019 National Aeronautics and Space Administration
  9. Air Vehicle Gust Response analysis for Conceptual Design

    SBC: Research In Flight, LLC            Topic: T15

    Research in Flight (RIF) and Auburn University are offering the development of an advanced, robust tool and methodology that allows the simulation and modeling of gust and wake vortex encounters for Distributed Electric Propulsion (DEP) enabled Urban Air Mobility (UAM) vehicle concepts. DEP enabled UAM concepts offer the potential for large performance improvements by exploiting favorable synergie ...

    STTR Phase I 2019 National Aeronautics and Space Administration
  10. Multispectral Mid-Infrared Laser

    SBC: Mirios, Inc.            Topic: T8

    We proposenbsp;to construct a multispectral MWIR light sourcenbsp;consisting of a single silicon chip which will generate and combine lightnbsp;from a wide MWIR spectral range. Compared to existing conventional MWIR emitters, we will significantly broaden the available wavelength emission range and combine light on-chip, removing the need fornbsp;free-space optics.nbsp;

    STTR Phase I 2019 National Aeronautics and Space Administration
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