导电海绵-AgNWs复合柔性应力传感器灵敏度优化

Modification of conductive sponge-AgNWs flexible stress sensor

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摘要以导电海绵为基底,并将其与银纳米线(AgNWs)复合作为柔性电极,制备了一系列柔性应力传感器,其具有良好的灵敏度和重复性.研究发现AgNWs均匀附着在导电海绵的泡沫网络中.受力时随着海绵泡沫结构大形变的同时,AgNWs结构在微观上也产生次级形变,这种多层次的导电网络结构变化有利于增强应力传感器的灵敏度.考察了不同介电材料、介电层厚度、AgNWs滴涂层数等条件对灵敏度的影响,并优化了制备条件,实现了传感器的可控制备.本文制备的传感器制备方法简单,有一定实际应用前景. Flexible stress sensor is a key component in wearable devices.Sensitivity of flexible stress sensor determines detection properties.Thus,investigation of sensitivity influence factors in the preparation process could help to improve sensor properties and controllable preparation.In this study,a novel series of flexible stress sensors were prepared by combining Ag nanowires(AgNWs)with conductive sponge substrates.Structural characterizations show that AgNWs adheres to the network of conductive sponge uniformly.When stress is applied,conductive sponge presents large-scale deformation and AgNWs shows subordinate deformation in microstructure.Multiple deformation including conductive sponge and AgNWs microstructure could enhance the sensitivity of flexible stress sensor.The flexible stress sensors in this work exhibit excellent sensitivity and repeatable durability.The influence of different dielectric materials,the thickness of dielectric layer and layers of dripping AgNWs is investigated carefully.The preparation process is optimized and can be controlled.The preparation process in this study is simple and is fit for large-scale production,with great application prospects in the future.

作者李秀平李娜刘程于福来谢智荆罗才辉 LI Xiuping;LI Na;LIU Cheng;YU Fulai;XIE Zhijing;LUO Caihui(College of Environmental and Chemical Engineering,Dalian University,116622,Dalian,Liaoning,China;Liaoning Province Key Laboratory of Polymer Materials and Engineers(Dalian University of Technology),116024,Dalian,Liaoning,China;Dalian Fumei Chemical Technology Co.,Ltd,116000,Dalian,Liaoning,China;Liaoning Province High Perfomance Resin Engineering Technology Research Center,116024,Dalian,Liaoning,China)

机构地区大连大学环境与化学工程学院大连理工大学辽宁省高分子科学与工程重点实验室大连孚美化工科技有限公司辽宁省高性能树脂工程技术研究中心

出处《北京师范大学学报（自然科学版）》 CAS CSCD 北大核心 2022年第6期871-877,共7页 Journal of Beijing Normal University(Natural Science)

基金辽宁省自然科学基金资助项目(20170540045) 大连市科技之星资助项目(2019RQ087)。

关键词应力传感器银纳米线导电海绵微观结构柔性 stress sensor Ag nanowires(AgNWs) conductive sponge microstructure flexible

分类号 TB34 [一般工业技术—材料科学与工程]

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参考文献6

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北京师范大学学报（自然科学版）

2022年第6期

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导电海绵-AgNWs复合柔性应力传感器灵敏度优化

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