Issue 48, 2020

Emerging flexible sensors based on nanomaterials: recent status and applications

Abstract

Flexible sensors have received tremendous attention over the last several decades due to their outstanding properties, such as high stretchability, excellent biocompatibility, great conformability, and low cost. The main fatal aspect of flexible sensors is that the flexible material has poor conductivity, resulting in obtained flexible sensors possessing poor sensitivity. Many kinds of nanomaterials with excellent conductivity have been integrated with flexible materials to improve the conductivity of flexible sensors, such as carbon nanomaterials and metal nanomaterials. In terms of molding, 3D printing serves as an ideal technology for producing flexible sensors because it can generate previously unattainable geometric structures compared with traditional fabrications. Understanding the features of flexible materials, nanomaterials, and 3D printing technology, and assessing the possibility of their fabrication are therefore critical for the development and application of flexible sensors. Herein, we review the recent literature on flexible materials and nanomaterials, and the fabrication strategy of flexible sensors, with a particular focus on stretchable and self-healing properties. Then, we discuss the application of flexible sensors, such as biomedical devices, wearable devices, and soft robots. Finally, we provide key challenges and opportunities that lie ahead for flexible sensors.

Graphical abstract: Emerging flexible sensors based on nanomaterials: recent status and applications

Article information

Article type
Review Article
Submitted
29 9 2020
Accepted
08 11 2020
First published
09 11 2020

J. Mater. Chem. A, 2020,8, 25499-25527

Emerging flexible sensors based on nanomaterials: recent status and applications

N. Wen, L. Zhang, D. Jiang, Z. Wu, B. Li, C. Sun and Z. Guo, J. Mater. Chem. A, 2020, 8, 25499 DOI: 10.1039/D0TA09556G

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