异质结
材料科学
氧气
光电子学
纳米技术
吸附
工作(物理)
检出限
制作
降级(电信)
极限(数学)
工作温度
作者
Luying Wang,Yueting Li,Jing Tang,Xianfa Zhang,Li-Hua Huo,Yingming Xu,Xiaoli Cheng
摘要
ABSTRACT Excessive NO 2 emissions not only damage the ecological environment but also endanger human health. Therefore, developing gas sensors for efficient detection of NO 2 gas is essential. In this study, a one‐step solvothermal method was used to prepare the ZnWO 4 /ZnO heterostructure for NO 2 detection at room temperature (RT). The ZnWO 4 /ZnO sensors showed an excellent response for NO 2 (174.5/3 ppm) and a low detection limit of 10 ppb at RT. The synergistic interaction between the heterostructure and oxygen vacancies contributes to the superior sensing capability of ZnWO 4 /ZnO heterostructures. The construction of the heterostructure accelerates charge separation and migration, while oxygen vacancies provide abundant active sites and adsorption sites for gas molecules. This work offers a viable strategy for developing highly sensitive ZnWO 4 /ZnO‐based gas sensors at RT.
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