Combination material parallel synthesis and screening for resistance gas sensor
Shunping Zhang1,2,3,Chunlei Zhang1
1State Key Laboratory of Materials Processing and Die&Mould Technology, Huazhong University of Science and Technology, Wuhan, Hubei 430074
2Nanomaterial and Smart Sensor Research Laboratory, Huazhong University of Science and Technology, Luo-Yu Road 1037, Wuhan, Hubei 430074
EXTENDED ABSTRACT: Metal oxide (MOX) gas sensor (MOS) with the characteristics of low cost, simplicity of integration and large number of detectable gases/possible application fields, is one of the most promising candidates for gas sensors. MOX films are the critical part of the MOS. However, there are still some shortcomings to be addressed urgently, for instance, poor selectivity and instability at high temperature. Therefore, in order to obtain excellent performance, stable and good resistance type gas sensitive films, we tested the properties of all possible materials in definite range through parallel synthesis and high-throughput characterization, so that effective experimental scheme could be concluded to select the suitable type of gas sensitive material, from the regular pattern. Meanwhile, we have designed a combination material screening platform for, including a parallel synthesizing instruments and a high throughput characterization equipment for gas-sensing films. The platform has the characteristics of automatic parallel synthesis, material adaptability, wide range proportion regulation, high throughput characterization, screening materials with short cycles and high efficiency. And it is a promising solution for obtaining high performance gas-sensing materials and gas sensors, and realizing fast and accurate odor detection.
Figure 1.气敏材料高通量测量平台结构示意图
Shunping Zhang (1983-), from Qianjiang, Hubei, associate professor of the School of Materials Science and Technology, Huazhong University of Science and Technology, mainly engaged in the research and development and application of gas and odor sensor systems, including parallel synthesis of high-performance gas-sensing materials, high-throughput screening, and gas-sensing components and array miniaturization, research involving materials, information and other interdisciplinary fields.