4.6 Article

MoS2 Chemiresistive Sensor Array on Paper Patterned with Toner Lithography for Simultaneous Detection of NH3 and H2S Gases

期刊

ACS SUSTAINABLE CHEMISTRY & ENGINEERING
卷 9, 期 44, 页码 14735-14743

出版社

AMER CHEMICAL SOC
DOI: 10.1021/acssuschemeng.1c04166

关键词

sustainable lithography; green lithography; mixed gas sensing; multiplexed gas sensing; paper gas sensors

资金

  1. Department of Biotechnology under the Ministry of Science and Technology, India [BT/PR22239/NNT/28/1269/2017]

向作者/读者索取更多资源

A green lithography process was developed to create a MoS2 gas sensor array on paper, which can detect NH3 and H2S gases accurately and efficiently. The method avoids the use of toxic solvents and nonrenewable resources, and is scalable for mass production of gas sensors. This green and sustainable approach using solid-state deposition of MoS2 paves the way for future disposable gas sensing technology.
We report a green lithography process to pattern a MoS2 gas sensor array on paper. First, the toner sacrificial layer is printed on photo paper using a laser printer, followed by the deposition of a sensing layer with direct writing of the MoS2 pellet. Finally, the toner is lifted off in acetone to obtain the sensor array. The sensors in the array biased at different voltages exhibit a linear response to NH3 and H2S gases at room temperature. The concentrations of individual gases in their binary mixture are extracted from the response of the two sensors in the array using graphical analysis. The absolute error in predicting the concentration of NH3 and H2S in their binary mixture is less than 15%, which is practically acceptable for most gas sensing applications. The proposed method for making gas sensors involves neither rigorous use of toxic or carcinogenic solvents nor nonrenewable resources. Moreover, the reported process is scalable and can produce many devices in a short time. As a green and sustainable method to create efficient multigas sensing devices using solid-state deposition of MoS2, the method paves a way to develop future disposable gas sensing technology.

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