申人升

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高级工程师

硕士生导师

任职 : 微电子实验教学中心主任

性别:男

毕业院校:大连理工大学

学位:博士

所在单位:集成电路学院

学科:微电子学与固体电子学. 光学工程

办公地点:辽宁省大连市大连经济技术开发区图强街321号大连理工大学开发区校区教学楼C区503室

联系方式:0411-62273210

电子邮箱:shjiank@dlut.edu.cn

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Comparative investigation of three types of ethanol sensor based on NiO-SnO2 composite nanofibers

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论文类型:期刊论文

发表时间:2012-06-01

发表刊物:CHINESE SCIENCE BULLETIN

收录刊物:SCIE

卷号:57

期号:17

页面范围:2087-2093

ISSN号:1001-6538

关键字:SnO2; semiconductors; electrospinning; nanofibers; gas sensors

摘要:NiO-SnO2 composite nanofibers were synthesized via electrospinning techniques and characterized by X-ray diffraction, scanning electron microscopy, transmission electron microscopy, and X-ray photoelectron spectroscopy. Three types of sensor were applied to investigate the sensing properties of these nanofibers. Sensors A were fabricated by mixing the nanofibers with deionized water, and then grinding and coating them on ceramic tubes to form indirect heated gas sensors. Microsensors B (with an area of 600 mu mx200 mu m) were formed by spinning nanofibers on Si substrates with Pt signal electrodes and Pt heaters. Sensors C were fabricated by spinning nanofibers on plane ceramic substrates (with a large area of 13.4 mmx7 mm) with Ag-Pd signal electrodes only. The operating temperatures of sensors A and B were controlled by adjusting heater currents, and the operating temperatures of sensors C were controlled by adjusting an external temperature control device. Experimental results show that sensors C possess the highest sensing properties, such as high response values (about 42 to 100 mu L/L ethanol), quick response/recovery speeds (the response and recovery times were 4 and 7 s, respectively), and excellent consistencies. These phenomena were explained by the retained fiber morphology and suitable sensor area. The presented results can provide some useful information for the design and optimization of one-dimensional nanomaterial-based gas sensors.