User-interactive electronic skin(e-skin)that could convert mechani-cal stimuli into distinguishable outputs displays tremendous potential for wearable devices and health care applications.However,the existing devices have the dis-advantages such as complex integration procedure and lack of the intuitive signal display function.Here,we present a bioinspired user-interactive e-skin,which is simple in structure and can synchronously achieve digital electrical response and optical visualization upon external mechanical stimulus.The e-skin comprises a conductive layer with a carbon nanotubes/cellulose nanofibers/MXene nanohybrid network featuring remarkable electromechanical behaviors,and a stretchable elas-tomer layer,which is composed of silicone rubber and thermochromic pigments.Furthermore,the conductive nanohybrid network with outstanding Joule heating performance can generate controllable thermal energy under voltage input and then achieve the dynamic coloration of silicone-based elastomer.Especially,such an innovative fusion strategy of digital data and visual images enables the e-skin to monitor human activities with evermore intuition and accuracy.The simple design philosophy and reliable operation of the demonstrated e-skin are expected to provide an ideal platform for next-generation flexible electronics.

Wentao Cao;Zheng Wang;Xiaohao Liu;Zhi Zhou;Yue Zhang;Shisheng He;Daxiang Cui;Feng Chen

Department of Orthopedic,School of Medicine,Spinal Pain Research Institute,Shanghai Tenth People's Hospital,Tongji University,Shanghai 200072,People's Republic of China;National Engineering Research Center for Nanotechnology,Shanghai 200241,People's Republic of China;Institute of Micro-Nano Science and Technology,School of Electronic Information and Electrical Engineering,Shanghai Jiao Tong University,Shanghai 200240,People's Republic of China

纳微快报（英文）

[1]Wentao Cao;Zheng Wang;Xiaohao Liu;Zhi Zhou;Yue Zhang;Shisheng He;Daxiang Cui;Feng Chen-.Bioinspired MXene-Based User-Interactive Electronic Skin for Digital and Visual Dual-Channel Sensing)[J].纳微快报（英文）,2022(07):228-245

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