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Touch IoT enabled by wireless self-sensing and haptic-reproducing electronic skin.

Dengfeng LiJingkun ZhouKuanming YaoSitong LiuJiahui HeJingyou SuQing'ao QuYuyu GaoZhen SongChunki YiuChuanlu ShaZhi SunBinbin ZhangJian LiLibei HuangChenyu XuTsz Hung WongXingcan HuangJiyu LiRuquan YeLei WeiZhengyou ZhangXu GuoYuan DaiZhaoqian XieXinge Yu
Published in: Science advances (2022)
Tactile sensations are mainly transmitted to each other by physical touch. Wireless touch perception could be a revolution for us to interact with the world. Here, we report a wireless self-sensing and haptic-reproducing electronic skin (e-skin) to realize noncontact touch communications. A flexible self-sensing actuator was developed to provide an integrated function in both tactile sensing and haptic feedback. When this e-skin was dynamically pressed, the actuator generated an induced voltage as tactile information. Via wireless communication, another e-skin could receive this tactile data and run a synchronized haptic reproduction. Thus, touch could be wirelessly conveyed in bidirections between two users as a touch intercom. Furthermore, this e-skin could be connected with various smart devices to form a touch internet of things where one-to-one and one-to-multiple touch delivery could be realized. This wireless touch presents huge potentials in remote touch video, medical care/assistance, education, and many other applications.
Keyphrases
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