Issue 3, 2022

Boosting selective H2 sensing of ZnO derived from ZIF-8 by rGO functionalization

Abstract

Hydrogen (H2) sensors based on metal oxide semiconductors (MOSs) have attracted considerable attention for safety concerns of traditional industries and energy storing devices. ZnO has been widely studied as an n-type MOS in H2 sensing due to the excellent stability, mobile conductive carriers, and wide bandgap. However, the poor selectivity and high working temperature limit its practical applications. Herein, we designed a heterostructure based on ZIF-8-derived ZnO by rGO functionalization to boost the selective H2 sensing. This composite demonstrated dramatic H2 selectivity against other flammable gases, particularly ethanol, which was improved by deoxygenation to reduce the surface oxygen functional groups. This sample showed excellent H2 sensing with a high response of ∼18 to 200 ppm H2, and a response/recovery time of 50/7 s at 400 °C. Even at a certain low temperature of 200 °C, the composite showed evident response to H2. The excellent gas sensing behavior could be attributed to the heterojunctions and enhanced electron mobility. Regulation of the surface oxygen-containing functional groups opens up a promising approach to adjust the gas sensing selectivity of MOS-based materials.

Graphical abstract: Boosting selective H2 sensing of ZnO derived from ZIF-8 by rGO functionalization

Supplementary files

Article information

Article type
Research Article
Submitted
30 Oct 2021
Accepted
22 Dec 2021
First published
24 Dec 2021

Inorg. Chem. Front., 2022,9, 599-606

Boosting selective H2 sensing of ZnO derived from ZIF-8 by rGO functionalization

S. Zhou, J. Ji, T. Qiu, L. Wang, W. Ni, S. Li, W. Yan, M. Ling and C. Liang, Inorg. Chem. Front., 2022, 9, 599 DOI: 10.1039/D1QI01374B

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