Opening in Bureauify…
ClosedGrantWon by ARIECA INC.SBIR Phase I SBIR

SBIR Phase I: Liquid Metal-Elastomer Composite for Electromagnetic Shielding

National Science Foundation

Closed
NAICS 541715
Source: sbir_sttr
OverviewIntelligenceProposals

Key Details

Posted Date
Response Deadline
NAICS Code
541715
Source
sbir_sttr
Award Amount
$255,986
Awarded To
ARIECA INC.

Description

The broader impact/commercial potential of this Small Business Innovation Research (SBIR) Phase I project is to provide new methods and materials to improve electromagnetic interference (EMI) and radio frequency (RF) shielding. EMI/RF shielding are critical for protecting electronic devices from electromagnetic disruption, interference, or data theft. The uninterrupted operation of these electronic devices is essential in a wide range of existing and emerging products and applications, from mobile technologies and personal computing to internet of things, smart textiles, and wearable electronics. However, poor mechanical contact and issues with reliable sealing are critical pain points for EMI/RF shielding applications related to these applications. Improved performance depends on materials that are highly deformable and can maintain a low "lack of conformity" between mating surfaces, an acute challenge that has driven commercial demand for softer and more deformable EMI/RF shielding materials. This project will advance the development of a new material. This Small Business Innovation Research (SBIR) Phase I project will develop a materials technology that combines high performance electromagnetic interference (EMI) with extreme elasticity, mechanical compliance, and toughness. This technology is based on a liquid metal embedded elastomer (LMEE) architecture in which droplets of liquid metal are suspended within a soft elastomer matrix. These composites have a unique combination of properties not possible with other elastomers: (i) high electrical conductivity, (ii) high strain limit, (iii) low elastic modulus, and (iv) high fracture toughness. Because of its high electrical conductivity, LMEEs are effective in disrupting electromagnetic waves and RF signals. Furthermore, because of its high elasticity and tear resistance, LMEE can be used for EMI shielding within tubing, hoses, seals, gaskets, and rubber-based packaging as well as in bags, clothing, and other textiles. This project will result in an LMEE composite with adequate conductivity to shield electronic devices from interference over a wide range of frequencies. Moreover, it will be mechanically robust and resistance to the leakage of liquid metal when torn or punctured. This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.

Key Dates

Posted:Deadline:

Frequently Asked Questions

Is this grant still open?+
No — the response deadline for this grant has passed (January 31, 2022). Browse other active National Science Foundation opportunities on Bureauify.
How do I apply for this grant?+
Review the full solicitation documents on the source website (SAM.gov or Grants.gov), prepare your proposal per the instructions, and submit before the deadline. Use Bureauify to track the opportunity and get reminders.
Who won this grant?+
This grant was awarded to ARIECA INC. for $255,986. Use Bureauify to analyze this vendor's contract history and win patterns.

Track This Grant

Get alerts and track updates with Bureauify.

Track in BureauifyView on sbir_sttr

Intelligence

  • Win probability analysis
  • Competitive landscape
  • Incumbent analysis
  • Price-to-win estimate
  • Similar awards history
Open in Bureauify for full intelligence →

Data sourced from sbir_sttr

Search Government Records

100M+ government records — search across all categories

SBIR Phase I: Liquid Metal-Elastomer Composite for Electroma — National Science Foundation | Bureauify