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Ultrahigh-transparency and pressure-sensitive iontronic device for tactile intelligence

Engineering and Technology

Ultrahigh-transparency and pressure-sensitive iontronic device for tactile intelligence

J. Tang, C. Zhao, et al.

Discover the groundbreaking transparent iontronic sensing (TIS) device, achieving an impressive optical transparency of 96.9% and high sensitivity of 83.9 kPa⁻¹. Developed by Jie Tang, Chao Zhao, Qian Luo, Yu Chang, Zhenguo Yang, and Tingrui Pan, this innovative technology is poised to revolutionize human-machine interfaces across industrial and medical fields.

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Playback language: English
Abstract
This paper introduces a transparent iontronic sensing (TIS) device that achieves both ultrahigh optical transparency (96.9%) and high sensitivity (83.9 kPa⁻¹). This is achieved by using a transparent ionic material with tunable surface topologies and a refractive index matching strategy. The device's comprehensive performance makes it suitable for human-machine interfaces in various industrial and medical applications.
Publisher
npj Flexible Electronics
Published On
Jun 30, 2022
Authors
Jie Tang, Chao Zhao, Qian Luo, Yu Chang, Zhenguo Yang, Tingrui Pan
Tags
transparent iontronic sensing
optical transparency
high sensitivity
human-machine interfaces
ionic materials
refractive index

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