Issue 12, 2022

Sponge-like loose and porous SnO2 microspheres with rich oxygen vacancies and their enhanced room-temperature gas-sensing performance

Abstract

Structure and surface modification of semiconductor materials are of great importance in gas sensors. In this study, a facile citric acid-assisted solvothermal method via a precise calcination process was leveraged to synthesize sponge-like loose and porous SnO2 microspheres with rich oxygen vacancies (denoted as LP-SnO2-Ov). When this material was used in a gas sensor, it exhibited an extremely high response to 10 ppm hydrogen sulfide gas at room temperature (Ra/Rg = 9688), which was 54 times higher than that of commercial SnO2. Furthermore, the response time of LP-SnO2-Ov was 5 s, while the recovery time was 177 s. Moreover, it displayed such high selectivity and stability for hydrogen sulfide gas that its properties remained almost unchanged after 1 month. This method paves a new way to fabricate materials possessing a sponge-like loose and porous structure with oxygen vacancies, which is promising for many other scientific fields such as lithium-ion batteries and photocatalysis.

Graphical abstract: Sponge-like loose and porous SnO2 microspheres with rich oxygen vacancies and their enhanced room-temperature gas-sensing performance

Supplementary files

Article information

Article type
Paper
Submitted
22 Feb 2022
Accepted
22 Feb 2022
First published
25 Feb 2022

Nanoscale, 2022,14, 4548-4556

Sponge-like loose and porous SnO2 microspheres with rich oxygen vacancies and their enhanced room-temperature gas-sensing performance

W. Pi, X. Chen, M. Humayun, Y. Yuan, Y. Lei, X. Li, Z. Tang, X. Zhang, D. Huang, Z. Lu, H. Li, Z. Zheng, Q. Fu and W. Luo, Nanoscale, 2022, 14, 4548 DOI: 10.1039/D2NR01031C

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