首页|High response n-propanol sensor based on co-modified ZnO nanorods
High response n-propanol sensor based on co-modified ZnO nanorods
扫码查看
点击上方二维码区域,可以放大扫码查看
原文链接
NSTL
Elsevier
? 2022 Elsevier B.V.Co-modified ZnO (Co@ZnO) nanorods are successfully prepared by hydrothermal synthesis method without secondary pollution. The element distribution, microstructure, crystal plane spacing, and other related parameters of Co@ZnO nanorods are systematically studied by adopting different material characterization methods. It can be concluded that Co nanoparticles are decorated on the outside of ZnO nanorods. Gas sensing tests demonstrate that Co@ZnO sensor has a significant improvement for the detection of n-propanol in response time, response value, and detection lower limit. In particular, the response value of 1 mol% Co@ZnO sensor to 100 ppm n-propanol is 491 at 250 °C, which is about 3 times than the response value of ZnO sensor at 275 °C. The minimum detection limit of 1 mol% Co@ZnO sensor for n-propanol has been reduced to 10 ppb with the response value of 3.14, which has reached the minimum detection limit for n-propanol by contrast with other literature report for the detection of n-propanol. The improvement of gas sensing properties of Co@ZnO nanorods is discussed by its catalytic oxidation of n-propanol, special nanorods morphology, and fermi level shift of ZnO triggered by Co doping.
NSTL
Elsevier
