Flexible Accelerated‐Wound‐Healing Antibacterial MXene‐Based Epidermic Sensor for Intelligent Wearable Human‐Machine Interaction

Li, Mingkun; Zhang, Yunfei; Lian, Lishuyi; Liu, Kuo; Lu, Ming; Chen, Youbai; Zhang, Liqun; Zhang, Xingcai; Wan, Pengbo

doi:10.1002/adfm.202208141

articleAdvanced Functional MaterialsSep 17, 2022Closed access

Flexible Accelerated‐Wound‐Healing Antibacterial MXene‐Based Epidermic Sensor for Intelligent Wearable Human‐Machine Interaction

MLMingkun Li YZYunfei Zhang LLLishuyi Lian KLKuo Liu MLMing Lu

Beijing University of Chemical Technology · Chinese PLA General Hospital · +3 more institutions

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Abstract

Abstract Flexible epidermic sensors made from conductive hydrogels are holding bright potential in personalized healthcare, multifunctional electronic skins, and human‐machine interfaces. However, it is still a great challenge to simultaneously realize conductive hydrogel‐based epidermic sensors with reliable self‐healing ability and remarkable sensing performances in high‐performance healthcare (especially electrophysiological signals) sensing for wearable human‐machine interaction, as well as accelerated wound healing for subsequent medical treatment together. Herein, a flexible healable high‐performance epidermic sensor is assembled from the facilely prepared antibacterial MXene hydrogel with efficiently…

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Topics & keywords

Topics

Keywords

Wearable computer
Biocompatibility
Materials science
Self-healing
Wearable technology
Biomedical engineering
Nanotechnology
Computer science

UN Sustainable Development Goals

Good health and well-being

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