首页|Bioinspired nanomaterials for wearable sensing and human-machine interfacing

Bioinspired nanomaterials for wearable sensing and human-machine interfacing

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The inculcation of bioinspiration in sensing and human-machine interface(HMI)technologies can lead to distinctive characteristics such as conformability,low power consumption,high sensitivity,and unique properties like self-healing,self-cleaning,and adaptability.Both sensing and HMI are fields rife with opportunities for the application of bioinspired nanomaterials,particularly when it comes to wearable sensory systems where biocompatibility is an additional requirement.This review discusses recent development in bioinspired nanomaterials for wearable sensing and HMIs,with a specific focus on state-of-the-art bioinspired capacitive sensors,piezoresistive sensors,piezoelectric sensors,triboelectric sensors,magnetoelastic sensors,and electrochemical sensors.We also present a comprehensive overview of the challenges that have hindered the scientific advancement in academia and commercialization in the industry.

bioinspired nanomaterialshuman-machine interfacewearable sensorswearable bioelectronics

Vishesh Kashyap、Junyi Yin、Xiao Xiao、Jun Chen

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Department of Bioengineering,University of California,Los Angeles,Los Angeles,CA 90095,USA

Department of Mechanical and Aerospace Engineering,University of California,Los Angeles,Los Angeles,CA 90095,USA

Young Innovator Award in Nano ResearchHenry Samueli School of Engineering & Applied ScienceDepartment of Bioengineering at the University of California,Los AngelesHellman Fellows Research GrantUCLA Pandemic Resources Program Research AwardResearch Recovery Grant by the UCLA Academic SenateBrain & Behavior Research Foundation Young Investigator GrantCatalyzing Pediatric Innovation Grant from the West Coast Consortium for Technology & Innovation in Pediatrics,Children's Ho

3094447744

2024

10.1007/s12274-023-5725-8

纳米研究(英文版)

纳米研究(英文版)

CSTPCD
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年,卷(期):2024.17(2)
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