Smart wearable textilesintegrating micro/nano electronics into fibers/garments represent state-of-the-art wearable technology and show great potential applications in healthcare,smart city,intelligent robotics,etc.[1]...Smart wearable textilesintegrating micro/nano electronics into fibers/garments represent state-of-the-art wearable technology and show great potential applications in healthcare,smart city,intelligent robotics,etc.[1]To this end,wearable nanosensors,logic circuits,electronic skin,flexible batteries,etc.,are incorporated into fabrics to create stretchable and wearable e-textiles.展开更多
Abstract The fiberization and integration of electronic devices into textiles represent an important strategy to design wearable and comfortable intelligent systems.However,the function realization of existing intelli...Abstract The fiberization and integration of electronic devices into textiles represent an important strategy to design wearable and comfortable intelligent systems.However,the function realization of existing intelligent textiles often depends on complex and rigid silicon-based computation components,which have posed significant challenges in terms of integration,energy consumption and user comfort.This has spurred the need for a paradigm shift towards more seamless and efficient solutions.The advent of chipless interactive textile electronics presents a promising pathway for overcoming these challenges and unlocking new possibilities in wearable technology.展开更多
基金National Natural Science Foundation of China,Grant/Award Numbers:52203226,52303054。
文摘Smart wearable textilesintegrating micro/nano electronics into fibers/garments represent state-of-the-art wearable technology and show great potential applications in healthcare,smart city,intelligent robotics,etc.[1]To this end,wearable nanosensors,logic circuits,electronic skin,flexible batteries,etc.,are incorporated into fabrics to create stretchable and wearable e-textiles.
基金supported by MOST(2022YFA1203001,2022YFA1203002),NSFC(T2321003,22335003,52122310,22075050,52222310,T2222005,22175042)and STCSM(21511104900).
文摘Abstract The fiberization and integration of electronic devices into textiles represent an important strategy to design wearable and comfortable intelligent systems.However,the function realization of existing intelligent textiles often depends on complex and rigid silicon-based computation components,which have posed significant challenges in terms of integration,energy consumption and user comfort.This has spurred the need for a paradigm shift towards more seamless and efficient solutions.The advent of chipless interactive textile electronics presents a promising pathway for overcoming these challenges and unlocking new possibilities in wearable technology.
