Review of Graphene-Based Textile Strain Sensors, with Emphasis on Structure Activity Relationship

Yu, Rufang and Zhu, Chengyan and Wan, Junmin and Li, Yongqiang and Hong, Xinghua (2021) Review of Graphene-Based Textile Strain Sensors, with Emphasis on Structure Activity Relationship. Polymers, 13 (1). p. 151. ISSN 2073-4360

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Abstract

Graphene-based textile strain sensors were reviewed in terms of their preparation methods, performance, and applications with particular attention on its forming method, the key properties (sensitivity, stability, sensing range and response time), and comparisons. Staple fiber strain sensors, staple and filament strain sensors, nonwoven fabric strain sensors, woven fabric strain sensors and knitted fabric strain sensors were summarized, respectively. (i) In general, graphene-based textile strain sensors can be obtained in two ways. One method is to prepare conductive textiles through spinning and weaving techniques, and the graphene worked as conductive filler. The other method is to deposit graphene-based materials on the surface of textiles, the graphene served as conductive coatings and colorants. (ii) The gauge factor (GF) value of sensor refers to its mechanical and electromechanical properties, which are the key evaluation indicators. We found the absolute value of GF of graphene-based textile strain sensor could be roughly divided into two trends according to its structural changes. Firstly, in the recoverable deformation stage, GF usually decreased with the increase of strain. Secondly, in the unrecoverable deformation stage, GF usually increased with the increase of strain. (iii) The main challenge of graphene-based textile strain sensors was that their application capacity received limited studies. Most of current studies only discussed washability, seldomly involving the impact of other environmental factors, including friction, PH, etc. Based on these developments, this work was done to provide some merit to references and guidelines for the progress of future research on flexible and wearable electronics.

Item Type: Article
Uncontrolled Keywords: textile strain sensors; graphene-based; staple fiber; staple and filament yarn; fabric
Subjects: STM Repository > Chemical Science
Depositing User: Managing Editor
Date Deposited: 19 Jul 2024 06:54
Last Modified: 19 Jul 2024 06:54
URI: http://classical.goforpromo.com/id/eprint/755

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