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DOI: 10.1055/s-0041-1737455
Flexible Piezoionic Strain Sensors toward Artificial Intelligence Applications
This work was supported by startup funding from Soochow University, the Earth Engineering Center, Columbia University, and the Center for Advanced Materials for Energy and Environment, Columbia University.
Abstract
Flexible piezoionic strain sensors are playing an important role in the field of smart electronic and artificial intelligence. The high sensitivity and superior flexibility make it possible to detect various strain and stress from macro- to microscale precisely. Here, recent progress on flexible piezoionic strain sensors has been summarized into several sections, including sensing mechanism, material engineering, and smart applications. In each section, we present typical scientific works and discuss corresponding critical results. This Account aims to provide broad views for researchers with different academic backgrounds, and then promotes the development of flexible piezoionic strain sensors. Finally, existing challenges and opportunities have been presented to expedite further research works and practical applications of flexible piezoionic strain sensors.
1 Introduction
2 Sensing Mechanism of Flexible Piezoionic Strain Sensors
3 Material Engineering for Flexible Piezoionic Strain Sensors
3.1 Electrolyte Materials for Flexible Piezoionic Strain Sensors
3.2 Electrode Materials for Flexible Piezoionic Strain Sensors
4 Smart Applications of Flexible Piezoionic Strain Sensors toward Artificial Intelligence
5 Conclusion and Perspective
Keywords
piezoionic mechanism - strain sensors - flexibility - material engineering - smart applicationsPublication History
Received: 18 February 2022
Accepted after revision: 01 April 2022
Article published online:
25 April 2022
© 2022. Thieme. All rights reserved
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