Highly Sensitive Ce-Doped ZnO Nanocomposite Sensor for Detecting Lithium Battery Leakage.
Yutong Guo, Guozheng Zhu, Ru Wang, Xinran Wei, Zhijie Xu, Hongmin Zhu, Fanli Meng
Abstract
Open AccessThis study clarifies the detection process of the Ce-ZnO sensor for ethyl methyl carbonate (EMC) gas. This study presents new opportunities for enhancing zinc oxide (ZnO) sensors and identifying lithium battery leaks. This study utilized a hydrothermal technique to synthesize Ce-doped ZnO nanosheets and examined the gas-sensing efficacy of ZnO nanosheets with varying amounts of Ce doping. In comparison to pure ZnO sensors, the sensor with 0.5 atom % Ce doping enhanced the response value to EMC gas from 1.49 to 9.86 and reduced the ideal working temperature by 30 °C. The detection limit was decreased to 50 ppb, and the response/recovery time also was shortened compared to pure ZnO. This sensor has exceptional stability and selectivity for EMC gas. This research elucidates the detection mechanism of the Ce-ZnO sensor for EMC gas and introduces novel opportunities for enhancing ZnO sensors and identifying lithium battery leaks.