Issue 65, 2020

Low-temperature operating ZnO-based NO2 sensors: a review

Abstract

Owing to its excellent physical and chemical properties, ZnO has been considered to be a promising material for development of NO2 sensors with high sensitivity, and fast response and recovery. However, due to the low activity of ZnO at low temperature, most of the current work is focused on detecting NO2 at high operating temperatures (200–500 °C), which will inevitably increase energy consumption and shorten the lifetime of sensors. In order to overcome these problems and improve the practicality of ZnO-based NO2 sensors, it is necessary to systematically understand the effective strategies and mechanisms of low-temperature NO2 detection of ZnO sensors. This paper reviews the latest research progress of low-temperature ZnO nanomaterial-based NO2 gas sensors. Several efficient strategies to achieve low-temperature NO2 detection (such as morphology modification, noble metal decoration, additive doping, heterostructure sensitization, two-dimensional material composites, and light activation) and corresponding sensing mechanisms (such as depletion layer theory, grain boundary barrier theory, spill-over effects) are also introduced. Finally, the challenges and future development directions of low-temperature ZnO-based NO2 sensors are outlined.

Graphical abstract: Low-temperature operating ZnO-based NO2 sensors: a review

Article information

Article type
Review Article
Submitted
26 Aug 2020
Accepted
23 Oct 2020
First published
30 Oct 2020
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2020,10, 39786-39807

Low-temperature operating ZnO-based NO2 sensors: a review

J. Xuan, G. Zhao, M. Sun, F. Jia, X. Wang, T. Zhou, G. Yin and B. Liu, RSC Adv., 2020, 10, 39786 DOI: 10.1039/D0RA07328H

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