Iontronic Graphene Tactile Sensors: Enhanced Sensitivity of Iontronic Graphene Tactile Sensors Facilitated by Spreading of Ionic Liquid Pinned on Graphene Grid (Adv. Funct. Mater. 14/2020),Advanced Functional Materials

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Iontronic Graphene Tactile Sensors: Enhanced Sensitivity of Iontronic Graphene Tactile Sensors Facilitated by Spreading of Ionic Liquid Pinned on Graphene Grid (Adv. Funct. Mater. 14/2020)
Advanced Functional Materials ( IF 18.5 ) Pub Date : 2020-04-06 , DOI: 10.1002/adfm.202070089
Joo Sung Kim ₁ , Seung Chul Lee ₂ , Jinhyun Hwang ₂ , Eunho Lee ₃ , Kilwon Cho ₃ , Sung‐Jin Kim ₄ , Do Hwan Kim _{1,

5} , Wi Hyoung Lee ₂

Affiliation

In article number 1908993, Do Hwan Kim, Wi Hyoung Lee, and co‐workers demonstrate iontronic graphene tactile sensors showing a new class of high‐performance wearable sensory platforms, which reflects not only an unprecedented level of pressure sensing capabilities but also novel sensing principles based on the spreading of ions pinned to the graphene grid. This approach can serve as a solution in order to implement more advanced tactile interface for emerging human‐interactive technologies.

中文翻译：

离子型石墨烯触觉传感器：通过固定在石墨烯网格上的离子液体的扩散，增强了离子型石墨烯触觉传感器的灵敏度（Adv。Funct。Mater。14/2020）

在第1909993号文章中，Do Hwan Kim，Wi Hyoung Lee及其同事演示了离子电子石墨烯触觉传感器，该传感器显示出一类新型的高性能可穿戴传感平台，不仅反映了前所未有的压力传感能力，而且还反映了新颖的传感原理基于固定在石墨烯网格上的离子的扩散。此方法可以用作解决方案，以便为新兴的人机交互技术实现更高级的触觉界面。

更新日期：2020-04-06

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