Issue 3, 2023

A highly sensitive and miniaturized wearable antenna based on MXene films for strain sensing

Abstract

With the prosperous development of wearable electronics, flexible radio-frequency wireless antenna sensors have attracted considerable interest due to their various applications in the Internet of things (IoT). However, vital issues including device configurations and materials restricted the miniaturization and flexibility of antenna sensors. In this work, we demonstrated a microstrip antenna wireless sensor consisting of a copper ground plane, a polydimethylsiloxane dielectric substrate and an MXene patch. Our optimized device possessed a small size (40 × 40 mm2) with a resonant frequency at 4.8 GHz and a frequency-shift range of 8% under different strains and matches well with 5G communications. Moreover, our antenna wireless sensor exhibited excellent mechanical flexibility and stable response to repetitive stimulations. The strain sensitivity of 20 is also impressive among similar antenna sensors. The demonstrations on human body and cantilever motion monitoring were conducted with desirable stability and sensitivity, where the sensor showed obvious shifted resonant frequencies while the reflection coefficient was maintained at around −25 dB, revealing its great potential in healthcare monitoring, construction diagnosis and IoT.

Graphical abstract: A highly sensitive and miniaturized wearable antenna based on MXene films for strain sensing

Supplementary files

Article information

Article type
Paper
Submitted
11 Aug 2022
Accepted
12 Dec 2022
First published
19 Dec 2022
This article is Open Access
Creative Commons BY-NC license

Mater. Adv., 2023,4, 917-922

A highly sensitive and miniaturized wearable antenna based on MXene films for strain sensing

A. Yin, C. Zhang, J. Luo, J. Liu, Z. Ren, Y. Wang, Y. Ye, R. Yin, Q. Feng, Y. Chen, K. Li, W. Zhao, S. Yu and J. Wei, Mater. Adv., 2023, 4, 917 DOI: 10.1039/D2MA00863G

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