Actively Perceiving and Responsive Soft Robots Enabled by Self‐Powered, Highly Extensible, and Highly Sensitive Triboelectric Proximity‐ and Pressure‐Sensing Skins

Robots that can move, feel, and respond like organisms will bring revolutionary impact to today's technologies. Soft robots with organism‐like adaptive bodies have shown great potential in vast robot–human and robot–environment applications. Developing skin‐like sensory devices allows them to n...

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Veröffentlicht in:	Advanced materials (Weinheim) 2018-07, Vol.30 (28), p.e1801114-n/a
Hauptverfasser:	Lai, Ying‐Chih, Deng, Jianan, Liu, Ruiyuan, Hsiao, Yung‐Chi, Zhang, Steven L., Peng, Wenbo, Wu, Hsing‐Mei, Wang, Xingfu, Wang, Zhong Lin
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Sprache:	eng
Schlagworte:	active sensors Contact pressure Electric contacts Electricity Electrification Electronic devices electronic skins Energy dissipation External pressure Humans Materials science Moisture content Motion Muscles Optoelectronic devices Pressure Robotics Robots self‐powered sensors Sensitivity Signal processing Skin Soft robotics soft robots Stretchability triboelectric nanogenerators Visual signals
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container_title	Advanced materials (Weinheim)
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creator	Lai, Ying‐Chih Deng, Jianan Liu, Ruiyuan Hsiao, Yung‐Chi Zhang, Steven L. Peng, Wenbo Wu, Hsing‐Mei Wang, Xingfu Wang, Zhong Lin
description	Robots that can move, feel, and respond like organisms will bring revolutionary impact to today's technologies. Soft robots with organism‐like adaptive bodies have shown great potential in vast robot–human and robot–environment applications. Developing skin‐like sensory devices allows them to naturally sense and interact with environment. Also, it would be better if the capabilities to feel can be active, like real skin. However, challenges in the complicated structures, incompatible moduli, poor stretchability and sensitivity, large driving voltage, and power dissipation hinder applicability of conventional technologies. Here, various actively perceivable and responsive soft robots are enabled by self‐powered active triboelectric robotic skins (tribo‐skins) that simultaneously possess excellent stretchability and excellent sensitivity in the low‐pressure regime. The tribo‐skins can actively sense proximity, contact, and pressure to external stimuli via self‐generating electricity. The driving energy comes from a natural triboelectrification effect involving the cooperation of contact electrification and electrostatic induction. The perfect integration of the tribo‐skins and soft actuators enables soft robots to perform various actively sensing and interactive tasks including actively perceiving their muscle motions, working states, textile's dampness, and even subtle human physiological signals. Moreover, the self‐generating signals can drive optoelectronic devices for visual communication and be processed for diverse sophisticated uses. Actively perceiving and responsive soft robots that can use the triboelectric effect and self‐generating electricity to sense and respond to stimuli are demonstrated. They are enabled by self‐powered and highly stretchable triboelectric proximity‐ and pressure‐sensing skins. After homogeneous integration, these soft robots can actively perceive their body‐motions, working states, environment stimuli, baby diaper conditions, and even human pulses by self‐generating electricity.
doi_str_mv	10.1002/adma.201801114
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Soft robots with organism‐like adaptive bodies have shown great potential in vast robot–human and robot–environment applications. Developing skin‐like sensory devices allows them to naturally sense and interact with environment. Also, it would be better if the capabilities to feel can be active, like real skin. However, challenges in the complicated structures, incompatible moduli, poor stretchability and sensitivity, large driving voltage, and power dissipation hinder applicability of conventional technologies. Here, various actively perceivable and responsive soft robots are enabled by self‐powered active triboelectric robotic skins (tribo‐skins) that simultaneously possess excellent stretchability and excellent sensitivity in the low‐pressure regime. The tribo‐skins can actively sense proximity, contact, and pressure to external stimuli via self‐generating electricity. The driving energy comes from a natural triboelectrification effect involving the cooperation of contact electrification and electrostatic induction. The perfect integration of the tribo‐skins and soft actuators enables soft robots to perform various actively sensing and interactive tasks including actively perceiving their muscle motions, working states, textile's dampness, and even subtle human physiological signals. Moreover, the self‐generating signals can drive optoelectronic devices for visual communication and be processed for diverse sophisticated uses. Actively perceiving and responsive soft robots that can use the triboelectric effect and self‐generating electricity to sense and respond to stimuli are demonstrated. They are enabled by self‐powered and highly stretchable triboelectric proximity‐ and pressure‐sensing skins. 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The driving energy comes from a natural triboelectrification effect involving the cooperation of contact electrification and electrostatic induction. The perfect integration of the tribo‐skins and soft actuators enables soft robots to perform various actively sensing and interactive tasks including actively perceiving their muscle motions, working states, textile's dampness, and even subtle human physiological signals. Moreover, the self‐generating signals can drive optoelectronic devices for visual communication and be processed for diverse sophisticated uses. Actively perceiving and responsive soft robots that can use the triboelectric effect and self‐generating electricity to sense and respond to stimuli are demonstrated. They are enabled by self‐powered and highly stretchable triboelectric proximity‐ and pressure‐sensing skins. After homogeneous integration, these soft robots can actively perceive their body‐motions, working states, environment stimuli, baby diaper conditions, and even human pulses by self‐generating electricity.</description><subject>active sensors</subject><subject>Contact pressure</subject><subject>Electric contacts</subject><subject>Electricity</subject><subject>Electrification</subject><subject>Electronic devices</subject><subject>electronic skins</subject><subject>Energy dissipation</subject><subject>External pressure</subject><subject>Humans</subject><subject>Materials science</subject><subject>Moisture content</subject><subject>Motion</subject><subject>Muscles</subject><subject>Optoelectronic devices</subject><subject>Pressure</subject><subject>Robotics</subject><subject>Robots</subject><subject>self‐powered sensors</subject><subject>Sensitivity</subject><subject>Signal processing</subject><subject>Skin</subject><subject>Soft robotics</subject><subject>soft robots</subject><subject>Stretchability</subject><subject>triboelectric nanogenerators</subject><subject>Visual signals</subject><issn>0935-9648</issn><issn>1521-4095</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2018</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNqFkc9u1DAQhy0EokvhyhFZ4sKhWWzHTuzjqiwUqYhVt5wjx54UlyTe2knb3HgEXoPX4knw_qFIXDhZHn_zzcg_hF5SMqeEsLfadnrOCJWEUsofoRkVjGacKPEYzYjKRaYKLo_QsxivCSGqIMVTdMSULBTP6Qz9XJjB3UI74RUEA-7W9VdY9xZfQNz4PqY3vPbNgC987YeIl72uW7C4nvAa2ubX9x8rfwcB7Ak-c1dfk2d5P0DqS9TJTnQor7fF7Sh8GVztoQUzBGfwKvh717lhSqodvwoQ4xgg3Xc9aZ_1N9fH5-hJo9sILw7nMfryfnl5epadf_7w8XRxnhmeK55RWkolawDKKWcSCqsss0wKq4SURirSKFNSYCWIWpU5kaDLvLGMG23T9-TH6M3euwn-ZoQ4VJ2LBtpW9-DHWDEiCJdFQWlCX_-DXvsx9Gm7RJWFyjkTIlHzPWWCjzFAU22C63SYKkqqbYjVNsTqIcTU8OqgHesO7AP-J7UEqD1w51qY_qOrFu8-Lf7KfwM5zq1H</recordid><startdate>201807</startdate><enddate>201807</enddate><creator>Lai, Ying‐Chih</creator><creator>Deng, Jianan</creator><creator>Liu, Ruiyuan</creator><creator>Hsiao, Yung‐Chi</creator><creator>Zhang, Steven L.</creator><creator>Peng, Wenbo</creator><creator>Wu, Hsing‐Mei</creator><creator>Wang, Xingfu</creator><creator>Wang, Zhong Lin</creator><general>Wiley Subscription Services, Inc</general><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7SR</scope><scope>8BQ</scope><scope>8FD</scope><scope>JG9</scope><scope>7X8</scope><orcidid>https://orcid.org/0000-0002-5530-0380</orcidid></search><sort><creationdate>201807</creationdate><title>Actively Perceiving and Responsive Soft Robots Enabled by Self‐Powered, Highly Extensible, and Highly Sensitive Triboelectric Proximity‐ and Pressure‐Sensing Skins</title><author>Lai, Ying‐Chih ; 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Soft robots with organism‐like adaptive bodies have shown great potential in vast robot–human and robot–environment applications. Developing skin‐like sensory devices allows them to naturally sense and interact with environment. Also, it would be better if the capabilities to feel can be active, like real skin. However, challenges in the complicated structures, incompatible moduli, poor stretchability and sensitivity, large driving voltage, and power dissipation hinder applicability of conventional technologies. Here, various actively perceivable and responsive soft robots are enabled by self‐powered active triboelectric robotic skins (tribo‐skins) that simultaneously possess excellent stretchability and excellent sensitivity in the low‐pressure regime. The tribo‐skins can actively sense proximity, contact, and pressure to external stimuli via self‐generating electricity. The driving energy comes from a natural triboelectrification effect involving the cooperation of contact electrification and electrostatic induction. The perfect integration of the tribo‐skins and soft actuators enables soft robots to perform various actively sensing and interactive tasks including actively perceiving their muscle motions, working states, textile's dampness, and even subtle human physiological signals. Moreover, the self‐generating signals can drive optoelectronic devices for visual communication and be processed for diverse sophisticated uses. Actively perceiving and responsive soft robots that can use the triboelectric effect and self‐generating electricity to sense and respond to stimuli are demonstrated. They are enabled by self‐powered and highly stretchable triboelectric proximity‐ and pressure‐sensing skins. After homogeneous integration, these soft robots can actively perceive their body‐motions, working states, environment stimuli, baby diaper conditions, and even human pulses by self‐generating electricity.</abstract><cop>Germany</cop><pub>Wiley Subscription Services, Inc</pub><pmid>29869431</pmid><doi>10.1002/adma.201801114</doi><tpages>12</tpages><orcidid>https://orcid.org/0000-0002-5530-0380</orcidid></addata></record>
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source	MEDLINE; Wiley Online Library Journals Frontfile Complete
subjects	active sensors Contact pressure Electric contacts Electricity Electrification Electronic devices electronic skins Energy dissipation External pressure Humans Materials science Moisture content Motion Muscles Optoelectronic devices Pressure Robotics Robots self‐powered sensors Sensitivity Signal processing Skin Soft robotics soft robots Stretchability triboelectric nanogenerators Visual signals
title	Actively Perceiving and Responsive Soft Robots Enabled by Self‐Powered, Highly Extensible, and Highly Sensitive Triboelectric Proximity‐ and Pressure‐Sensing Skins
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