Advances in Rational Design and Materials of High-Performance Stretchable Electromechanical Sensors

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Author(s)
Dinh, Toan
Nguyen, Thanh
Phan, Hoang-Phuong
Nguyen, Tuan-Khoa
Dau, Van Thanh
Nguyen, Nam-Trung
Dao, Dzung Viet
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2020
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Abstract

Stretchable and wearable sensor technology has attracted significant interests and created high technological impact on portable healthcare and smart human–machine interfaces. Wearable electromechanical systems are an important part of this technology that has recently witnessed tremendous progress toward high-performance devices for commercialization. Over the past few years, great attention has been paid to simultaneously enhance the sensitivity and stretchability of the electromechanical sensors toward high sensitivity, ultra-stretchability, low power consumption or self-power functionalities, miniaturisation as well as simplicity in design and fabrication. This work presents state-of-the-art advanced materials and rational designs of electromechanical sensors for wearable applications. Advances in various sensing concepts and structural designs for intrinsic stretchable conductive materials as well as advanced rational platforms are discussed. In addition, the practical applications and challenges in the development of stretchable electromechanical sensors are briefly mentioned and highlighted.

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Small

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16

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14

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This work is covered by copyright. You must assume that re-use is limited to personal use and that permission from the copyright owner must be obtained for all other uses. If the document is available under a specified licence, refer to the licence for details of permitted re-use. If you believe that this work infringes copyright please make a copyright takedown request using the form at https://www.griffith.edu.au/copyright-matters.

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Physical sciences

Electrical engineering

Nanotechnology

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Dinh, T; Nguyen, T; Phan, H-P; Nguyen, T-K; Dau, VT; Nguyen, N-T; Dao, DV, Advances in Rational Design and Materials of High-Performance Stretchable Electromechanical Sensors, Small, 2020, 16 (14), pp. 1905707

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