Pd掺杂ZnO材料的制备及其对NO2气敏性能研究-《郑州大学学报(工学版)》

文章信息/Info

Title:: Synthesis, Characterization and Nitrogen Dioxide Gas Sensing Applications of Pd Doped ZnO Semiconductor Material

Author(s):: Cao Chenlu; Cao Chunmei; Guo Meiyuan; Lu Qifang; Zhan Zili;Gao Jian; School of Chemical Engineering and Energy, Zhengzhou University

Keywords:: Pd/ZnO; metal organic framework; NO2; gas sensor; gas sensitivity

摘要:: 本文以含Zn的金属有机框架材料作为模板，通过热处理方法制备出颗粒分布相对均匀、颗粒度较小 (50 - 200 nm) 的ZnO材料，分别比较该ZnO半导体纳米材料及不同Pd负载量的ZnO纳米材料对NO2气体的传感性能。研究结果表明，贵金属Pd的引入及ZnO载体颗粒度的降低均有利于提高Pd/ZnO纳米材料对NO2的气敏性能和选择性；当Pd负载量为1% 时，该负载型ZnO纳米材料对NO2具有更好的气敏响应性能，最佳工作温度为 235 ℃ ，且当NO2浓度降至5 ppm，该样品对NO2仍具有气敏传感性能。

Abstract:: Nano-sized ZnO materials were prepared using the porous structure of metal-organic frameworks (MOFs) material as the precursor, and the sensing performance of this ZnO-based semiconductor nano-material with different ratios of Pd for the different concentrations of NO2 gas was studied, When the Pd doping is 1wt%, the doped ZnO nanomaterial has better gas-sensing response to NO2. The optimum operating temperature is 235 °C, and when the NO2 concentration is reduced to 5 ppm, the sample still has good gas sensing performance.