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Novel Nanocoating technology for Functional Textile

Award Information
Agency: Department of Defense
Branch: Army
Contract: W911QY-19-P-0180
Agency Tracking Number: A18B-024-0178
Amount: $150,000.00
Phase: Phase I
Program: STTR
Solicitation Topic Code: A18B-T024
Solicitation Number: 18.B
Solicitation Year: 2018
Award Year: 2019
Award Start Date (Proposal Award Date): 2019-07-18
Award End Date (Contract End Date): 2020-01-18
Small Business Information
208 S 4th Street
Stillwater, MN 55082
United States
DUNS: 081261520
HUBZone Owned: No
Woman Owned: No
Socially and Economically Disadvantaged: No
Principal Investigator
 Abdennour not available
 (612) 770-0238
Business Contact
 Abdennour Abbas
Phone: (612) 770-0238
Research Institution
 Regents of the University of Minnesoa
 April Coon April Coon
Sponsored Projects Administration 450 McNamara Alumni Center, 200 Oak Street SE
Minneapolis, MN 55454
United States

 (612) 624-7021
 Nonprofit College or University

Nanoparticles represent an attractive alternative in coating processes due to their functional versatility, including surface, optical, conductive and catalytic properties. However, current processes of coating textile products with nanoparticles results in rapid loss of the nanoparticles during laundering or use, leading to a significant decrease in product durability and functionality and increase in environmental risks. In addition, these processes are limited by the customized chemistry for each type of textile and nanoparticle. Both limitations mainly depend on how the nanoparticles are incorporated into the fabrics. Here we offer the development of new nanocomposite textiles using a proprietary thermal crescoating technology, where a variety of metal, metal oxide and metalloid nanoparticles can be directly grown into the bulk and throughout any type of textile or fibers, in a way that produces a stable nanocomposite with enhanced functionality, extended durability, and minimal impact on the environment. Such performance will be achieved using a cost-effective and scalable finishing process with no use of chemicals, other than the metal salts used to make the nanoparticles. The proposed process will be demonstrated by growing 11 different nanoparticles on a variety of fabrics to produce anti-microbial, fire-retardant and UV protection functional textiles.

* Information listed above is at the time of submission. *

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