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Title
Chemiresistive room temperature NO2 sensor based on nitrogen doped zinc oxide nanowires
Type of Research Article
Keywords
Nitrogen dioxide, N-ZnO, Selective, DFT, Metal oxide
Abstract
The prevalence of nitrogen dioxide (NO2) in the atmosphere is causing a steady increase in air pollution. As such there is an urgent need to create a sensitive and energy-efficient NO2 gas sensor to ensure environmental and health safety. In this study, we explore the effectiveness of nitrogen-doped zinc oxide nanowires in detecting harmful NO2 gas. Through the hydrothermal method, we synthesized zinc oxide (NW-0) and nitrogen-doped zinc oxide nanowire sensors (NW-1, NW-2 & NW-4). The introduction of nitrogen induced changes in both the crystallite size and nanowire density in ZnO. Additionally, an increase in oxygen vacancy concentration was observed with nitrogen doping. At room temperature, the NW-2 sensor exhibited exceptional NO2 sensing performance (response of 110) compared to NW-0 sensor (response of 1.9) for 10 ppm of gas. The NW-2 sensor also demonstrated a rapid response/recovery time of 50 s/5 s for a 10 ppm NO2 concentration. Moreover, the sensor showed stability over an extended period, minimal response variation with changes in relative humidity, and selectivity towards NO2 over other gases. Complementing the experimental findings, density functional theory (DFT) calculations were employed to estimate the adsorption energies of NO2 on the sensor surface.
Researchers P K Shihabudeen (First Researcher)، Shivam Gupta (Second Researcher)، Mina Yaghoobi Notash (Third Researcher)، Jaber Jahanbin Sardroodi (Fourth Researcher)، Shih-Wen Chiu (Fifth Researcher)، Nyan-Hwa Tai (Not In First Six Researchers)، Kea-Tiong Tang (Not In First Six Researchers)