With the development of environmental monitoring,it is urgent to establish NO_(2)sensor with good sensing performance.Compared with the traditional NO_(2)sensors made of metal oxides,NO_(2)sensors made of n-p heterost...With the development of environmental monitoring,it is urgent to establish NO_(2)sensor with good sensing performance.Compared with the traditional NO_(2)sensors made of metal oxides,NO_(2)sensors made of n-p heterostructure nanocomposites have good sensing performance in detection limit and operating temperature.ZnO nanoflake arrays with polyaniline film grown on the surface were prepared on ceramic tubes by hydrothermal and vapor diffusion method.The gas-phase diffusion method can control the heterostructure by adjusting the diffusion time.At room temperature(25℃),the construction of rich n-p heterogeneous interface enables the sensor prepared by the nanocomposite to respond to NO_(2),showing the sensing performance with the response value of 28.00 to10.00×10^(-6)NO_(2);the detection limit improved to0.01×10^(-6)and the recovery time of 18 s.In this work,the sensing mechanism of NO_(2)at heterogeneous interface is analyzed,which provides a promising material for the detection of low concentration NO_(2)at room temperature.展开更多
基金financially supported by the National Natural Science Foundation of China(Nos.21771060,61271126)the International Science&Technology Cooperation Program of China(No.2016YFE0115100)+1 种基金the Program for Science and Technology Project of Heilongjiang province(No.JQ2021B002)the Reform and Development Fund Project of Local University supported by the Central Government,Heilongjiang Touyan Innovation Team Program。
文摘With the development of environmental monitoring,it is urgent to establish NO_(2)sensor with good sensing performance.Compared with the traditional NO_(2)sensors made of metal oxides,NO_(2)sensors made of n-p heterostructure nanocomposites have good sensing performance in detection limit and operating temperature.ZnO nanoflake arrays with polyaniline film grown on the surface were prepared on ceramic tubes by hydrothermal and vapor diffusion method.The gas-phase diffusion method can control the heterostructure by adjusting the diffusion time.At room temperature(25℃),the construction of rich n-p heterogeneous interface enables the sensor prepared by the nanocomposite to respond to NO_(2),showing the sensing performance with the response value of 28.00 to10.00×10^(-6)NO_(2);the detection limit improved to0.01×10^(-6)and the recovery time of 18 s.In this work,the sensing mechanism of NO_(2)at heterogeneous interface is analyzed,which provides a promising material for the detection of low concentration NO_(2)at room temperature.