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Wearable Sensors: Supercapacitive Iontronic Nanofabric Sensing (Adv. Mater. 36/2017)
Advanced Materials ( IF 27.4 ) Pub Date : 2017-09-21 , DOI: 10.1002/adma.201770264 Ruya Li 1 , Yang Si 2 , Zijie Zhu 1 , Yaojun Guo 1 , Yingjie Zhang 1 , Ning Pan 3 , Gang Sun 2 , Tingrui Pan 1
Advanced Materials ( IF 27.4 ) Pub Date : 2017-09-21 , DOI: 10.1002/adma.201770264 Ruya Li 1 , Yang Si 2 , Zijie Zhu 1 , Yaojun Guo 1 , Yingjie Zhang 1 , Ning Pan 3 , Gang Sun 2 , Tingrui Pan 1
Affiliation
In article number 1700253, Tingrui Pan and co‐workers introduce a novel all‐fabric supercapacitive sensing modality for wearable pressure and force sensing based on a novel elastic ionic–electronic interface. Utilizing the electrospun iontronic nanofabric as a sensing element, the supercapacitive iontronic fabric offers an unprecedented sensitivity of 114 nF kPa−1, single‐Pascal pressure resolution, and millisecond response time, with a high level of noise immunity and signal stability for emerging wearable and medical applications.
中文翻译:
可穿戴式传感器:超电容离子电子纳米织物传感(Adv。Mater。36/2017)
在1700253号文章中,潘廷瑞和他的同事介绍了一种基于新型弹性离子-电子界面的新型全织物超电容传感方式,用于可穿戴压力和力传感。超电容离子电子织物利用静电纺丝的离子电子纳米织物作为传感元件,可提供前所未有的114 nF kPa -1的灵敏度,单帕斯卡压力分辨率和毫秒响应时间,并具有较高的抗噪性和信号稳定性,可用于新兴的可穿戴设备。医疗应用。
更新日期:2017-09-21
中文翻译:
可穿戴式传感器:超电容离子电子纳米织物传感(Adv。Mater。36/2017)
在1700253号文章中,潘廷瑞和他的同事介绍了一种基于新型弹性离子-电子界面的新型全织物超电容传感方式,用于可穿戴压力和力传感。超电容离子电子织物利用静电纺丝的离子电子纳米织物作为传感元件,可提供前所未有的114 nF kPa -1的灵敏度,单帕斯卡压力分辨率和毫秒响应时间,并具有较高的抗噪性和信号稳定性,可用于新兴的可穿戴设备。医疗应用。