Low-Temperature Detection of Carbon Monoxide With Enhanced Sensitivity Using Ag-Loaded ZnO/rGO—Modeling, Simulation, and Validation

一氧化碳 材料科学 灵敏度(控制系统) 温度测量 核工程 电子工程 化学 热力学 物理 工程类 生物化学 催化作用
作者
Tarif Anam,Md Tawabur Rahman,Liang Dong,Qiquan Qiao
出处
期刊:IEEE Sensors Journal [IEEE Sensors Council]
卷期号:24 (12): 18827-18834 被引量:5
标识
DOI:10.1109/jsen.2024.3389770
摘要

Rapid monitoring of carbon monoxide (CO) is crucial because of its detrimental effects on human health and other living organisms. Metal oxide semiconductor (MOS) nanostructures are identified as promising materials for gas sensors, but they have several limitations, such as inadequate selectivity, high operating temperature, and substantial power consumption. This paper presents the design, simulation, and evaluation of a CO gas sensor that utilizes silver loaded zinc oxide/reduced graphene oxide (ZnO/rGO). Operating conditions for the sensor have been optimized for high performance and fast response/recovery times. An optimized load of 1.5 wt.% of Ag into ZnO/rGO with weight ratio of 2:1 allows the sensor to detect CO with a response magnitude of 6.26 even at a temperature as low as 30 °C. Furthermore, it shows a response time of 25 s and a recovery time of 49 s when exposed to a CO concentration of 30 ppm. The incorporation of 1.5 wt.% Ag into ZnO/rGO also improves its selectivity toward CO against various interfering gases. The improvement in sensor performance is attributed to the high surface area of rGO, which promotes the adsorption of CO gas molecules and the catalytic effect of Ag content which reduces the activation energy. The simulation result agrees well with the experimental data, demonstrating superior sensitivity at low temperatures. This research can facilitate identifying appropriate sensing materials and optimal designs for high-performance gas sensors and forecast their behavior before the fabrication process begins.
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