Development of Conductive Antibacterial Coatings on Cotton Fabrics via Polyphenol-Mediated Silver Mirror Reaction DOI Open Access
Yixiao Wu,

Chit Yaw Fu,

Jiaxin Xing

et al.

Polymers, Journal Year: 2024, Volume and Issue: 16(23), P. 3244 - 3244

Published: Nov. 22, 2024

Herein, this study reports the development of a multifunctional conductive antibacterial cotton fabric through utilization natural polyphenol-mediated silver mirror reaction. The experimental results demonstrate that polyphenols can effectively facilitate deposition nanoparticles (AgNPs), resulting in uniform and durable hybrid nanocoating on fabric. effects polyphenol's molecular weights coating structures stabilities have been revealed via two distinct approaches: washing resistance electrochemical testing systems. It has concluded lower-molecular-weight phenols induce compact dense structure, whereas such as tannic acid exhibit relatively high stability, achieving an excellent conductivity 0.2 S/cm good 67% over five cycles. underlying mechanism further confirmed by cyclic voltammetry measurements, suggesting play significant role stabilizing AgNPs preventing their dissolution. Furthermore, Ag-doped polyphenol-coated fabrics notable properties. By coupling with typical reactions, not only offers sustainable alternative to synthetic chemicals but also presents promising method endow textiles dual properties activity.

Language: Английский

Development of Conductive Antibacterial Coatings on Cotton Fabrics via Polyphenol-Mediated Silver Mirror Reaction DOI Open Access
Yixiao Wu,

Chit Yaw Fu,

Jiaxin Xing

et al.

Polymers, Journal Year: 2024, Volume and Issue: 16(23), P. 3244 - 3244

Published: Nov. 22, 2024

Herein, this study reports the development of a multifunctional conductive antibacterial cotton fabric through utilization natural polyphenol-mediated silver mirror reaction. The experimental results demonstrate that polyphenols can effectively facilitate deposition nanoparticles (AgNPs), resulting in uniform and durable hybrid nanocoating on fabric. effects polyphenol's molecular weights coating structures stabilities have been revealed via two distinct approaches: washing resistance electrochemical testing systems. It has concluded lower-molecular-weight phenols induce compact dense structure, whereas such as tannic acid exhibit relatively high stability, achieving an excellent conductivity 0.2 S/cm good 67% over five cycles. underlying mechanism further confirmed by cyclic voltammetry measurements, suggesting play significant role stabilizing AgNPs preventing their dissolution. Furthermore, Ag-doped polyphenol-coated fabrics notable properties. By coupling with typical reactions, not only offers sustainable alternative to synthetic chemicals but also presents promising method endow textiles dual properties activity.

Language: Английский

Citations

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