期刊
SENSORS AND ACTUATORS B-CHEMICAL
卷 348, 期 -, 页码 -出版社
ELSEVIER SCIENCE SA
DOI: 10.1016/j.snb.2021.130605
关键词
Metal oxide gas sensors; Heterostructure; Surface ionic current; Selectivity
资金
- DST Nano technology mission [DST/NM/NT/2018/124]
- Department of Science and Technology, Government of India [DST/INSPIRE/04/2015/002111]
This study demonstrates that surface chemisorbed ambient moisture can lead to highly selective response of zinc oxide nanoparticles to hydrogen gas at room temperature. The presence of p-type NiO quasi-nanowires in conjunction with n-type ZnO nanoparticles significantly enhances the response to hydrogen gas. Furthermore, the presence of heterojunction barriers and surface ionic conduction at the NiO-ZnO interface synergistically enhance the selective response to hydrogen gas at room temperature.
In this paper, we show that the ionic conduction through surface chemisorbed ambient moisture leads to a remarkably high and selective response towards hydrogen gas at room temperature. The surface adsorbed water molecules acts as surface states, due to porous and granular nature of ZnO nanoparticles of 20 +/- 5 nm size. This is depicted as deviation from Arrhenius behavior near room temperatures. The response to hydrogen gas is further enhanced remarkably from 5% to 71% for 1200 ppm when p-type NiO quasi-nanowires (width 15-20 nm) are mixed with these n-type ZnO nanoparticles to form a homogenous NiO/ZnO nano-bulk p-n heterostructures. The maximum response is obtained for about 50-50% composition of NiO/ZnO although it is of still n-type character which signifies the dominance of ZnO in the sensing mechanism. The carrier type reversal from n-type to p-type takes place at a rather high NiO content of about 60-80% NiO in ZnO. The parallel surface ionic current through chemisorbed moisture (surface states) has been identified as a primary factor for high sensitivity to hydrogen gas at room temperature. Further, the presence of heterojunction barriers at the NiO-ZnO interface along with surface ionic conduction synergistically enhanced the selective response to hydrogen at room temperature.
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