纳米棒
结晶度
材料科学
热液循环
纳米结构
吸附
化学工程
选择性
纳米技术
化学
复合材料
催化作用
生物化学
工程类
有机化学
作者
Hongtao Wang,Meng Dai,Yueyue Li,Jihao Bai,Yueying Liu,Yuan Li,Chenchang Wang,Fengmin Liu,Geyu Lu
标识
DOI:10.1016/j.snb.2020.129145
摘要
Three different ZnO nanostructures (nanorods/flowers/spheres) were prepared through facile hydrothermal method or water bath, whose sensing properties to NO2 were investigated in detail at room temperature activated by UV light (365 nm LED). The sensing results showed that ZnO nanospheres exhibit the highest response of 29.4–5 ppm NO2, which can be attributed to their biggest specific surface area and the most amount of adsorbed oxygen species on the surface. In contrast, ZnO nanorods show the fastest response and recovery speed (9 and 18 s to 5 ppm NO2, respectively) due to their highest crystallinity, least surface defects and unidirectional electron transfer path, which is much faster than most reported literatures. With regard to the ZnO nanoflowers, both the gas-sensing response and the response and recovery speed are between ZnO nanorods and ZnO nanospheres. Furthermore, the stability, selectivity, and the moisture resistance of three different ZnO nanostructures were also researched.
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