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Main Authors: Ting‐Ting Li, Bing‐Bing Shou, Lu Yang, Hai‐Tao Ren, Xian‐Jin Hu, Jia‐Horng Lin, Tao Cai, Ching‐Wen Lou
Format: Artículo Open Access
Published: Wiley 2024
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Online Access:https://onlinelibrary.wiley.com/doi/10.1111/php.13924
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author Ting‐Ting Li
Bing‐Bing Shou
Lu Yang
Hai‐Tao Ren
Xian‐Jin Hu
Jia‐Horng Lin
Tao Cai
Ching‐Wen Lou
author_facet Ting‐Ting Li
Bing‐Bing Shou
Lu Yang
Hai‐Tao Ren
Xian‐Jin Hu
Jia‐Horng Lin
Tao Cai
Ching‐Wen Lou
Ting‐Ting Li
Bing‐Bing Shou
Lu Yang
Hai‐Tao Ren
Xian‐Jin Hu
Jia‐Horng Lin
Tao Cai
Ching‐Wen Lou
collection Wiley Open Access
contents Modification of traditional composite nonwovens with stable storage of light absorption transients and photodynamic antibacterial effect Ting‐Ting Li Bing‐Bing Shou Lu Yang Hai‐Tao Ren Xian‐Jin Hu Jia‐Horng Lin Tao Cai Ching‐Wen Lou Photochemistry and Photobiology AbstractCombining photodynamic antimicrobials with nonwovens is prospective. However, common photosensitizers still have drawbacks such as poor photoactivity and the inability to charge. In this study, a photodynamic and high‐efficiency antimicrobial protective material was prepared by grafting bis benzophenone‐structured 4,4‐terephthaloyl diphthalic anhydride (TDPA) photosensitizer, and antimicrobial agent chlorogenic acid (CA) onto spunbond‐meltblown‐spunbond (SMS) membranes. The charging rates for ·OH and H2O2 were 6377.89 and 913.52 μg/g/h. The light absorption transients structural storage remained above 69% for 1 month. High electrical capacity remained after seven cycles indicating its rechargeability and recyclability. The SMS/TDPA/CA membrane has excellent bactericidal performance when under illumination or lightless conditions, and the bactericidal efficiency of Escherichia coli and Staphylococcus aureus reached over 99%. The construction of self‐disinfection textiles based on the photodynamic strategies proposed in this paper is constructive for expanding and promoting the application of textile materials in the medical field. 10.1111/php.13924 http://onlinelibrary.wiley.com/termsAndConditions#vor
doi_str_mv 10.1111/php.13924
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institution Wiley Open Access
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publishDate 2024
publisher Wiley
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spellingShingle Modification of traditional composite nonwovens with stable storage of light absorption transients and photodynamic antibacterial effect
Ting‐Ting Li
Bing‐Bing Shou
Lu Yang
Hai‐Tao Ren
Xian‐Jin Hu
Jia‐Horng Lin
Tao Cai
Ching‐Wen Lou
Photochemistry and Photobiology
Modification of traditional composite nonwovens with stable storage of light absorption transients and photodynamic antibacterial effect Ting‐Ting Li Bing‐Bing Shou Lu Yang Hai‐Tao Ren Xian‐Jin Hu Jia‐Horng Lin Tao Cai Ching‐Wen Lou Photochemistry and Photobiology AbstractCombining photodynamic antimicrobials with nonwovens is prospective. However, common photosensitizers still have drawbacks such as poor photoactivity and the inability to charge. In this study, a photodynamic and high‐efficiency antimicrobial protective material was prepared by grafting bis benzophenone‐structured 4,4‐terephthaloyl diphthalic anhydride (TDPA) photosensitizer, and antimicrobial agent chlorogenic acid (CA) onto spunbond‐meltblown‐spunbond (SMS) membranes. The charging rates for ·OH and H2O2 were 6377.89 and 913.52 μg/g/h. The light absorption transients structural storage remained above 69% for 1 month. High electrical capacity remained after seven cycles indicating its rechargeability and recyclability. The SMS/TDPA/CA membrane has excellent bactericidal performance when under illumination or lightless conditions, and the bactericidal efficiency of Escherichia coli and Staphylococcus aureus reached over 99%. The construction of self‐disinfection textiles based on the photodynamic strategies proposed in this paper is constructive for expanding and promoting the application of textile materials in the medical field. 10.1111/php.13924 http://onlinelibrary.wiley.com/termsAndConditions#vor
title Modification of traditional composite nonwovens with stable storage of light absorption transients and photodynamic antibacterial effect
topic Photochemistry and Photobiology
url https://onlinelibrary.wiley.com/doi/10.1111/php.13924