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SKYNANO LLC

Company Information
Address
740 PIPER RD
KNOXVILLE, TN 37919-7019
United States


http://www.skynanotechnologies.com

Information

UEI: W3H1A1LMZ444

# of Employees: 11


Ownership Information

HUBZone Owned: No

Socially and Economically Disadvantaged: Yes

Woman Owned: Yes



Award Charts




Award Listing

  1. Decarbonizing Emissions from Carbon Black Production via Electrochemical Capture and Conversion of CO2 into Advanced Carbon Nanostructured Additives

    Amount: $250,000.00

    The International Energy Agency estimates that the chemicals sector alone emits 1.5 GT CO2 each year, representing 18% of total carbon emissions. Since the chemicals sector is directly responsible for ...

    SBIRPhase I2023Department of Energy
  2. Lightweight Multifunctional EMI-shielding Coatings Enabled by Domestic, Sustainable, & Low-Cost Carbon Nanotubes

    Amount: $75,000.00

    Electromagnetic Interface (EMI) Shielding is critical for maintenance of critical infrastructure and to prevent from external signals from disrupting electronics devices.  State of the art EMI shield ...

    STTRPhase I2023Department of Defense Air Force
  3. Capture and Conversion of Environmental CO2 into Carbon Nanotube Additives for Superior Performance Low-Emissions Concrete Composites

    Amount: $140,000.00

    In this STTR effort, SkyNano will collaborate with Prof. Hongyu Zhou's laboratory at the University of Tennessee Knoxville (UTK) to demonstrate the utilization of environmental carbon in composite ap ...

    STTRPhase I2023Department of Defense Navy
  4. Conductive Carbons by Design: Electrochemically Tailored Carbon Nanotube Additives for High Energy Long Lifetime Space Batteries

    Amount: $1,250,000.00

    The need for improved access and resiliency of energy storage is critical to all DOD missions. In this proposed Phase II project, SkyNano will demonstrate our novel multi-walled carbon nanotube (MWCN ...

    SBIRPhase II2023Department of Defense Air Force
  5. SBIR Phase II:Scalable Electrochemical Production Of Carbon Nanotubes From Carbon Dioxide

    Amount: $991,923.00

    The broader impact/commercial potential of this Small Business Innovation Research (SBIR) Phase II project is the development of a scalable carbon nanotube (CNT) production process that consumes atmos ...

    SBIRPhase II2022National Science Foundation
  6. Remote On-Site Manufacturing of Critical Mission-Extending Materials from Available Resources

    Amount: $1,250,000.00

    The need for improved on-base manufacturing of critical materials using only available on-site resources is critical for all DAF missions, especially in preparation for logistics under attack. In this ...

    SBIRPhase II2022Department of Defense Air Force
  7. CO2mposite: Recycling of CO2, Carbon Fiber Waste, and Biomaterials into Composite Panels for Lower Embodied Carbon Building Materials

    Amount: $250,000.00

    "SkyNano, Endeavor Composites, and The University of Tennessee Knoxville propose to develop a composite panel that contains CO2-derived carbon nanotubes (CNTs), recycled carbon fiber waste, and bio-de ...

    STTRPhase I2022Department of Energy ARPA-E
  8. CO2mposite: Recycling of CO2, Carbon Fiber Waste, and Biomaterials into Composite Panels for Lower Embodied Carbon Building Materials

    Amount: $1,306,116.00

    "SkyNano, Endeavor Composites, and The University of Tennessee Knoxville propose to develop a composite panel that contains CO2-derived carbon nanotubes (CNTs), recycled carbon fiber waste, and bio-de ...

    STTRPhase II2022Department of Energy ARPA-E
  9. CO2mposite: Recycling of CO2, Carbon Fiber Waste, and Biomaterials into Composite Panels for Lower Embodied Carbon Building Materials

    Amount: $443,884.00

    "SkyNano, Endeavor Composites, and The University of Tennessee Knoxville propose to develop a composite panel that contains CO2-derived carbon nanotubes (CNTs), recycled carbon fiber waste, and bio-de ...

    STTRPhase II2022Department of Energy ARPA-E
  10. Highly Scalable Production of Low Cost Carbon Nanotubes via Electrochemical Synthesis

    Amount: $49,999.00

    Advanced carbon materials such as multi-walled carbon nanotubes (MWCNTs) have demonstrated the ability to dramatically improve performance of high-rate batteries, allowing for increased rate capabilit ...

    SBIRPhase I2021Department of Defense Air Force
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