With the continuous development of technology and society, smart devices have filled people’s lives and become an indispensable part of people’s lives. At the same time, smart clothing has also been greatly develope...With the continuous development of technology and society, smart devices have filled people’s lives and become an indispensable part of people’s lives. At the same time, smart clothing has also been greatly developed. This article introduces several smart clothing materials, analyzes the current research status of smart clothing materials, and further discusses the applications of smart clothing materials in military, medical, intelligent decoration, and sports and leisure fields. Then the problems of smart clothing in safety, environmental protection, and industrial technology are analyzed, and the corresponding solutions to these problems are proposed, so as to provide reference and guidance for the future development of smart clothing in China. And the research shows that smart clothing will develop in the direction of fashion and diversification, function and comfort, safety and environmental protection, convenience and low cost in the future.展开更多
Metal‐organic frameworks(MOFs)have shown numerous potentials as promising materials to address real‐world problems.However,their practical utilization in commercial products was largely limited by the lack of downst...Metal‐organic frameworks(MOFs)have shown numerous potentials as promising materials to address real‐world problems.However,their practical utilization in commercial products was largely limited by the lack of downstream processing methodologies to transform MOF powders into functional products.In this study,a commercially viable solution for the general synthesis of MOF‐fabric composites was introduced.On account of coordination bonding between poly(acrylic acid)and MOF substrates,MOF powders securely adhered onto the surface of fabric materials via a drip cast method to give MOF‐fabric composites easily.This strategy can be applied to different MOF types,as well as a wide variety of fabric materials.The prepared materials showed excellent bacterial killing efficacy attributed to the embedded HKUST‐1 MOF.In light of the recent coronavirus disease 2019 pandemic,this methodology could enable the large‐scale fabrication of essential MOF‐based personal protective wearables(e.g.,clothing and masks)for use by healthcare professionals.展开更多
基金National Key Technology Research and Development Program of the Ministry of Science and Technology of China (No.2014BAE09B00)Tianjin Research Program of Application Foundation and Advanced Technology,China (No.16JCZDJC36400)。
文摘With the continuous development of technology and society, smart devices have filled people’s lives and become an indispensable part of people’s lives. At the same time, smart clothing has also been greatly developed. This article introduces several smart clothing materials, analyzes the current research status of smart clothing materials, and further discusses the applications of smart clothing materials in military, medical, intelligent decoration, and sports and leisure fields. Then the problems of smart clothing in safety, environmental protection, and industrial technology are analyzed, and the corresponding solutions to these problems are proposed, so as to provide reference and guidance for the future development of smart clothing in China. And the research shows that smart clothing will develop in the direction of fashion and diversification, function and comfort, safety and environmental protection, convenience and low cost in the future.
基金supported by the Singapore National Research Foundation Investigatorship(NRF‐NRFI2018‐03)the Ministry of Education Singapore under the Academic Research Funds(RT12/19 and MOE‐MOET2EP10120‐0003)the Singapore Agency for Science,Technology,and Research(A*STAR)AME IRG grant(A1883c0005).
文摘Metal‐organic frameworks(MOFs)have shown numerous potentials as promising materials to address real‐world problems.However,their practical utilization in commercial products was largely limited by the lack of downstream processing methodologies to transform MOF powders into functional products.In this study,a commercially viable solution for the general synthesis of MOF‐fabric composites was introduced.On account of coordination bonding between poly(acrylic acid)and MOF substrates,MOF powders securely adhered onto the surface of fabric materials via a drip cast method to give MOF‐fabric composites easily.This strategy can be applied to different MOF types,as well as a wide variety of fabric materials.The prepared materials showed excellent bacterial killing efficacy attributed to the embedded HKUST‐1 MOF.In light of the recent coronavirus disease 2019 pandemic,this methodology could enable the large‐scale fabrication of essential MOF‐based personal protective wearables(e.g.,clothing and masks)for use by healthcare professionals.
