Issue 23, 2023
From the journal:

RSC Advances

An ultrasensitive isoprene gas sensor based on the In2O3/MoS2 nanocomposite prepared by hydrothermal synthesis

Cheng Zhang,ab   Jiuhong Wang,ab   Ze Zhang,ab   Jin Gongab  and  Hairong Wang ORCID logo *ab  

* Corresponding authors

a State Key Laboratory for Manufacturing Systems Engineering, China
E-mail: whairong@xjtu.edu.cn

b School of Mechanical Engineering Xi'an Jiaotong University, Xi'an, China

Abstract

Isoprene is one of the specific biomarkers of liver disease in human exhaled gas, which should be detected with a high response at an order of ppb in actual application. In this paper, the heterojunction between n-type In2O3 and MoS2 was proposed to improve the isoprene sensing properties. Both In2O3 and MoS2 were prepared by a hydrothermal method, and nanostructured In2O3 flowers and solid micro irregular MoS2 particles were mixed into the In2O3/MoS2 composite with a mol ratio of 6 : 4. The composite was characterized by EDS and XRD to confirm the element types and crystal types. The isoprene sensor was prepared by dipping the composite suspension on a ceramic substrate integrated with a sensing electrode and heating unit. The testing results of the sensor showed the highest response value of 1.8 to 100 ppb isoprene at 200 °C. Besides, the low detecting limit (less than 5 ppb isoprene) and excellent selectivity are also revealed, showing that the composite can be a good candidate sensing material for isoprene for application in breath analysis.

Graphical abstract: An ultrasensitive isoprene gas sensor based on the In2O3/MoS2 nanocomposite prepared by hydrothermal synthesis

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Article information

DOI
https://doi.org/10.1039/D3RA00608E
Article type
Paper
Submitted
29 Jan 2023
Accepted
18 May 2023
First published
25 May 2023
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2023,13, 15826-15832

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An ultrasensitive isoprene gas sensor based on the In2O3/MoS2 nanocomposite prepared by hydrothermal synthesis

C. Zhang, J. Wang, Z. Zhang, J. Gong and H. Wang, RSC Adv., 2023, 13, 15826 DOI: 10.1039/D3RA00608E

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