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作 者:宋莎莎 司星雨 郑霓鸣 俞盈 张扬[1] SONG Shasha;SI Xingyu;ZHENG Niming;YU Ying;ZHANG Yang(School of Light Industry Science and Engineering,Beijing Technology and Business University,Beijing 100048,China;State Key Laboratory of Water Simulation,School of Environment,Beijing Normal University,Beijing 100875,China)
机构地区:[1]北京工商大学轻工科学与工程学院,北京100048 [2]北京师范大学环境学院水环境模拟国家重点实验室,北京100875
出 处:《中国塑料》2024年第9期73-81,共9页China Plastics
基 金:北京市自然科学基金面上项目(2242032);北京市科技重点项目(北京市自然基金-市教委联合资助)(KZ202010011019)。
摘 要:首先综述了压电式、电阻式、摩擦电式以及电容式4种应变传感器的类型的及其传感机理。其次,深入探讨了提升水凝胶应变传感器灵敏度的关键方法。通过选用导电纳米粒子与离子材料等适宜材料,采用微球、锯齿状、多孔等特定结构设计,以及多因素的综合复合等方式,可以赋予水凝胶应变传感器高灵敏度的特征。随后,归纳了此类传感器在智能电子、可穿戴设备和医疗健康领域的应用实例。最后,展望了目前面临的挑战与未来的机遇。This review provided a comprehensive overview in four types of strain sensors,including piezoelectric,resis-tive,triboelectric,and capacitive strain sensors,and their sensing mechanisms were summarized.The essential methods for improving the sensitivity of hydrogel strain sensors were discussed,which involved the selection of suitable materials such as conductive nanoparticles and ionic materials and the adoption of specific structural designs such as microspheres,sawtooth-like patterns,and porous structures.A comprehensive integration of these factors was also involved.These strategies enable the hydrogel strain sensors to obtain a high sensitivity.Furthermore,the application of hydrogel strain sensors in the fields of smart electronics,wearable devices,and medical health were introduced.Finally,the current challenges and the prospect of future opportunities in the development and applications of hydrogel strain sensors were discussed.
分 类 号:TQ322[化学工程—合成树脂塑料工业]
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