Issue 91, 2023
From the journal:

Chemical Communications

A gas-permeable, durable, and sensitive wearable strain sensor through thermal-radiation-promoted in situ welding

Xueyang Ren, ORCID logo a   Yuehui Yuan,b   Jin Li,b   Huaxu Ling,b   Yanjie Chen,b   Ping Yang,*c   Jianqing Li*abd  and  Benhui Hu ORCID logo *b  

* Corresponding authors

a State Key Laboratory of Bioelectronics and Jiangsu Key Laboratory of Biomaterials and Devices, School of Biological Science and Medical Engineering, Southeast University, Nanjing, China

b School of Biomedical Engineering and Informatics, Nanjing Medical University, Nanjing, China
E-mail: hubenhui@njmu.edu.cn

c School of Materials Science and Engineering, Nanjing Institute of Technology, Nanjing, China
E-mail: yangping@njit.edu.cn

d School of Instrument Science and Engineering, Southeast University, Nanjing, China
E-mail: ljq@seu.edu.cn

Abstract

A convenient strategy for fabricating a wearable sensor with favorable durability and sensitivity is reported. This approach exploits the reconstructed hydrogen bonds within the thermoplastic polyurethane (TPU) during the heating evaporation of metal to form robust welding of the fibers in the substrate. The sensor can steadily monitor pulse waves and facilitate real-time human-machine interaction.

Graphical abstract: A gas-permeable, durable, and sensitive wearable strain sensor through thermal-radiation-promoted in situ welding

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Article information

DOI
https://doi.org/10.1039/D3CC04310J
Article type
Communication
Submitted
31 Eost 2023
Accepted
26 Gwen. 2023
First published
24 Here 2023

Chem. Commun., 2023,59, 13595-13598

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A gas-permeable, durable, and sensitive wearable strain sensor through thermal-radiation-promoted in situ welding

X. Ren, Y. Yuan, J. Li, H. Ling, Y. Chen, P. Yang, J. Li and B. Hu, Chem. Commun., 2023, 59, 13595 DOI: 10.1039/D3CC04310J

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