In Situ Polymerized MXene/Polypyrrole/Hydroxyethyl Cellulose-Based Flexible Strain Sensor Enabled by Machine Learning for Handwriting Recognition

Yang, Chunqing; Zhang, Dongzhi; Wang, Dongyue; Luan, Huixin; Chen, Xiaoya; Yan, Weiyu

doi:10.1021/acsami.2c18989

articleACS Applied Materials & InterfacesJan 17, 2023Closed access

In Situ Polymerized MXene/Polypyrrole/Hydroxyethyl Cellulose-Based Flexible Strain Sensor Enabled by Machine Learning for Handwriting Recognition

CYChunqing Yang DZDongzhi Zhang DWDongyue Wang HLHuixin Luan XCXiaoya Chen

China University of Petroleum, East China

PubMed

Indexed incrossrefpubmed

Abstract

Flexible strain sensors have significant progress in the fields of human-computer interaction, medical monitoring, and handwriting recognition, but they also face many challenges such as the capture of weak signals, comprehensive acquisition of the information, and accurate recognition. Flexible strain sensors can sense externally applied deformations, accurately measure human motion and physiological signals, and record signal characteristics of handwritten text. Herein, we prepare a sandwich-structured flexible strain sensor based on an MXene/polypyrrole/hydroxyethyl cellulose (MXene/PPy/HEC) conductive material and a PDMS flexible substrate. The sensor features a wide linear strain detection range (0-94%),…

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177

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FWCI: 18.55
Percentile: 100%
References: 52

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Topics & keywords

Topics

Keywords

Materials science
Hydroxyethyl cellulose
Polypyrrole
Capacitive sensing
Gauge factor
Handwriting
Repeatability
SIGNAL (programming language)

UN Sustainable Development Goals

Quality Education

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