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• W3049437199 endingPage "1826" @default.
• W3049437199 startingPage "1826" @default.
• W3049437199 abstract "Using a lotus leaf as our model, we fabricated an extremely low surface energy micro/nanostructured coating for textiles that repel oil, water, and chemical warfare agents (CWAs) using a simple process that is suitable for large scale production. This coating, called “OmniBlock”, consisted of approximately 200-nm silica nanoparticles, tetraethylorthosilicate, 3-glycidoxypropyl trimethoxysilane, and a perfluorooctanoic acid-free fluoropolymer (Fluorolink S10) that was cross-linked between Si-O-Si groups via a sol-gel process. The perfluorooctanoic acid-free fluoropolymer-coated silica nanoparticles were simply applied to the surface of a cotton fabric by a dip–dry–cure process, forming dense, continuous, and uniform layers of OmniBlock coating. OmniBlock modified the surface of the cotton fibers, creating a rough, high surface area uniform coating with many micro-crevasses. As a result, n-dodecane, water, and CWAs beaded up without wetting the surface, exhibiting large contact angles of 154° for water and 121° for n-dodecane, with a small shedding angle of 5° and contact angle hysteresis of 3.2° for water. The designed coating showed excellent liquid repellence properties against three types of CWAs: 129°, 72°, and 87° for sulfur mustard (HD), soman (GD), and VX nerve agents, respectively. Furthermore, OmniBlock coating shows good mechanical properties under tensile strength and wash tests. This remarkable ability to repel CWAs is likely to have potential military applications in personal protective equipment systems requiring self-cleaning functions." @default.
• W3049437199 created "2020-08-21" @default.
• W3049437199 creator A5011967064 @default.
• W3049437199 creator A5025954952 @default.
• W3049437199 creator A5029627418 @default.
• W3049437199 creator A5077647341 @default.
• W3049437199 date "2020-08-14" @default.
• W3049437199 modified "2023-10-01" @default.
• W3049437199 title "Micro/Nanostructured Coating for Cotton Textiles That Repel Oil, Water, and Chemical Warfare Agents" @default.
• W3049437199 cites W1817258531 @default.
• W3049437199 cites W1963609472 @default.
• W3049437199 cites W1969565648 @default.
• W3049437199 cites W1970883279 @default.
• W3049437199 cites W1972758400 @default.
• W3049437199 cites W1986889274 @default.
• W3049437199 cites W1988186994 @default.
• W3049437199 cites W1989249838 @default.
• W3049437199 cites W1989639965 @default.
• W3049437199 cites W1992840894 @default.
• W3049437199 cites W1993363648 @default.
• W3049437199 cites W1993602203 @default.
• W3049437199 cites W1994994622 @default.
• W3049437199 cites W1996987746 @default.
• W3049437199 cites W1998515928 @default.
• W3049437199 cites W2001614266 @default.
• W3049437199 cites W2004575966 @default.
• W3049437199 cites W2006796452 @default.
• W3049437199 cites W2010230867 @default.
• W3049437199 cites W2011463396 @default.
• W3049437199 cites W2015405348 @default.
• W3049437199 cites W2026324819 @default.
• W3049437199 cites W2030374797 @default.
• W3049437199 cites W2033252487 @default.
• W3049437199 cites W2033301937 @default.
• W3049437199 cites W2038923379 @default.
• W3049437199 cites W2044425883 @default.
• W3049437199 cites W2048529947 @default.
• W3049437199 cites W2051715409 @default.
• W3049437199 cites W2057633736 @default.
• W3049437199 cites W2061493479 @default.
• W3049437199 cites W2064202537 @default.
• W3049437199 cites W2066643443 @default.
• W3049437199 cites W2070029233 @default.
• W3049437199 cites W2072382254 @default.
• W3049437199 cites W2076461031 @default.
• W3049437199 cites W2084012108 @default.
• W3049437199 cites W2084371932 @default.
• W3049437199 cites W2088702558 @default.
• W3049437199 cites W2089124524 @default.
• W3049437199 cites W2093988152 @default.
• W3049437199 cites W2100531746 @default.
• W3049437199 cites W2105457143 @default.
• W3049437199 cites W2115779567 @default.
• W3049437199 cites W2116878728 @default.
• W3049437199 cites W2118166595 @default.
• W3049437199 cites W2120558552 @default.
• W3049437199 cites W2129395922 @default.
• W3049437199 cites W2137037787 @default.
• W3049437199 cites W2137505316 @default.
• W3049437199 cites W2163719372 @default.
• W3049437199 cites W2192061214 @default.
• W3049437199 cites W2194424100 @default.
• W3049437199 cites W2256611368 @default.
• W3049437199 cites W2269818854 @default.
• W3049437199 cites W2285133649 @default.
• W3049437199 cites W2316155371 @default.
• W3049437199 cites W2328888558 @default.
• W3049437199 cites W2338311061 @default.
• W3049437199 cites W2479915544 @default.
• W3049437199 cites W2521332407 @default.
• W3049437199 cites W2527743881 @default.
• W3049437199 cites W2530482872 @default.
• W3049437199 cites W2595054775 @default.
• W3049437199 cites W2614460673 @default.
• W3049437199 cites W2614952285 @default.
• W3049437199 cites W2615130660 @default.
• W3049437199 cites W2619566506 @default.
• W3049437199 cites W2745954960 @default.
• W3049437199 cites W2791530796 @default.
• W3049437199 cites W2791922930 @default.
• W3049437199 cites W2804455495 @default.
• W3049437199 cites W2883013898 @default.
• W3049437199 cites W2884216843 @default.
• W3049437199 cites W2884446734 @default.
• W3049437199 cites W2908974085 @default.
• W3049437199 cites W2921463251 @default.
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• W3049437199 doi "https://doi.org/10.3390/polym12081826" @default.
• W3049437199 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/7464014" @default.
• W3049437199 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/32824067" @default.
• W3049437199 hasPublicationYear "2020" @default.
• W3049437199 type Work @default.
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