A wearable and sensitive graphene-cotton based pressure sensor for human physiological signals monitoring

Ping Li; Libo Zhao; Zhuangde Jiang; Mingzhi Yu; Zhen Li; Xiangyang Zhou; Yulong Zhao

doi:10.1038/s41598-019-50997-1

A wearable and sensitive graphene-cotton based pressure sensor for human physiological signals monitoring

Ping Li
, Libo Zhao^*
, Zhuangde Jiang
, Mingzhi Yu
, Zhen Li
, Xiangyang Zhou
, Yulong Zhao

^*此作品的通讯作者

仪器科学与光电工程学院

Xi'an Jiaotong University

科研成果: 期刊稿件 › 文章 › 同行评审

64 引用（Scopus）

摘要

Cotton fiber is the most commonly used fabric in textiles and clothing. As compared to inorganic materials like foam, sponge and paper, cotton fibers boast higher levels of flexibility and toughness, which makes it more durable and be better integrated with clothes. In this study, a conductive cotton fiber material modified by reduced graphene oxide (rGO) was prepared, and applied in pressure sensor. The highest sensitivity of the pressure sensor constructed is 0.21 kPa⁻¹, and the pressure range covers up to 500 kPa, which demonstrates a combination of fine sensitivity and broader pressure range. The pressure sensor developed in this study demonstrates great performance in real-time monitoring of human physiological signals like pulse, breath rate and speech recognition, boasting great application value in wearable electronics and smart clothing.

源语言	英语
文章编号	14457
期刊	Scientific Reports
卷	9
期	1
DOI	https://doi.org/10.1038/s41598-019-50997-1
出版状态	已出版 - 1 12月 2019

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abstract = "Cotton fiber is the most commonly used fabric in textiles and clothing. As compared to inorganic materials like foam, sponge and paper, cotton fibers boast higher levels of flexibility and toughness, which makes it more durable and be better integrated with clothes. In this study, a conductive cotton fiber material modified by reduced graphene oxide (rGO) was prepared, and applied in pressure sensor. The highest sensitivity of the pressure sensor constructed is 0.21 kPa−1, and the pressure range covers up to 500 kPa, which demonstrates a combination of fine sensitivity and broader pressure range. The pressure sensor developed in this study demonstrates great performance in real-time monitoring of human physiological signals like pulse, breath rate and speech recognition, boasting great application value in wearable electronics and smart clothing.",

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AU - Li, Ping

AU - Zhao, Libo

AU - Jiang, Zhuangde

AU - Yu, Mingzhi

AU - Li, Zhen

AU - Zhou, Xiangyang

AU - Zhao, Yulong

PY - 2019/12/1

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N2 - Cotton fiber is the most commonly used fabric in textiles and clothing. As compared to inorganic materials like foam, sponge and paper, cotton fibers boast higher levels of flexibility and toughness, which makes it more durable and be better integrated with clothes. In this study, a conductive cotton fiber material modified by reduced graphene oxide (rGO) was prepared, and applied in pressure sensor. The highest sensitivity of the pressure sensor constructed is 0.21 kPa−1, and the pressure range covers up to 500 kPa, which demonstrates a combination of fine sensitivity and broader pressure range. The pressure sensor developed in this study demonstrates great performance in real-time monitoring of human physiological signals like pulse, breath rate and speech recognition, boasting great application value in wearable electronics and smart clothing.

AB - Cotton fiber is the most commonly used fabric in textiles and clothing. As compared to inorganic materials like foam, sponge and paper, cotton fibers boast higher levels of flexibility and toughness, which makes it more durable and be better integrated with clothes. In this study, a conductive cotton fiber material modified by reduced graphene oxide (rGO) was prepared, and applied in pressure sensor. The highest sensitivity of the pressure sensor constructed is 0.21 kPa−1, and the pressure range covers up to 500 kPa, which demonstrates a combination of fine sensitivity and broader pressure range. The pressure sensor developed in this study demonstrates great performance in real-time monitoring of human physiological signals like pulse, breath rate and speech recognition, boasting great application value in wearable electronics and smart clothing.

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A wearable and sensitive graphene-cotton based pressure sensor for human physiological signals monitoring

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