用于室温检测乙醇的SnO-石墨烯复合气体传感器。

SnO-graphene composite gas sensor for a room temperature detection of ethanol.

作者信息

Pienutsa Natpichan, Roongruangsree Pakpong, Seedokbuab Venus, Yannawibut Krittamet, Phatoomvijitwong Chayanit, Srinives Sira

机构信息

Department of Chemical Engineering, Faculty of Engineering, Mahidol University 25/25 Puttamonthon, Nakhon Pathom, 73170, Thailand.

Science Division, Mahidol University International College, Mahidol University, 999 Salaya, Puttamonthon, Nakhon Pathom, 73170, Thailand.

出版信息

Nanotechnology. 2021 Mar 12;32(11):115502. doi: 10.1088/1361-6528/abcfea.

DOI:10.1088/1361-6528/abcfea

PMID:33264752

Abstract

In ethanol production, it is useful to monitor the state of fermentation using a sensor that provides real-time measurement but does not disturb the process. We propose here a tin oxide (SnO)-reduced graphene oxide (rGO) composite chemiresistive sensor that can be operated on low power and installed in a compact area for the monitoring of ethanol vapor. The sensor exhibited outstanding sensing responses to 29-145 ppm ethanol vapor, providing a sensitivity of 12 ppm, a response time of 123 ± 6, recovery time of 128 ± 42 s, and a limit of detection of 3 ppm. The sensor showed good selectivity to ethanol over carbon dioxide, acetic acid and water vapor. The sensing mechanism of the sensor relies on the reaction of ethanol vapor and chemisorbed oxygen species in which the reaction rate increases due to an abundance of the chemisorbed oxygen within n-p heterojunctions of SnO-rGO.

摘要

在乙醇生产过程中，使用能够提供实时测量且不干扰生产过程的传感器来监测发酵状态是很有用的。在此，我们提出一种氧化锡（SnO）-还原氧化石墨烯（rGO）复合化学电阻传感器，该传感器可以低功耗运行，并安装在紧凑的区域内用于监测乙醇蒸汽。该传感器对29 - 145 ppm的乙醇蒸汽表现出出色的传感响应，灵敏度为12 ppm，响应时间为123 ± 6秒，恢复时间为128 ± 42秒，检测限为3 ppm。该传感器对乙醇的选择性优于二氧化碳、乙酸和水蒸气。该传感器的传感机制依赖于乙醇蒸汽与化学吸附氧物种的反应，其中由于SnO - rGO的n - p异质结内化学吸附氧的丰富，反应速率增加。

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用于室温检测乙醇的SnO-石墨烯复合气体传感器。

SnO-graphene composite gas sensor for a room temperature detection of ethanol.

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