基于SnO2-CuO纳米纤维的薄膜型H2-S传感器研究

采用同轴静电纺丝技术制备了SnO2-CuO复合纳米纤维,采用提拉法将SnO2-CuO纳米纤维涂覆于印有梳状Au电极的氧化铝陶瓷管表面形成敏感薄膜,设计了一种新型薄膜式H2 S传感器。采用 X 射线衍射、扫描电子显微镜和X-射线光电子能谱( XPS)表征SnO2-CuO纳米纤维的相组成和微观形貌,分析了敏感薄膜成分配比和厚度对硫化氢敏感机理和电化学特性。采用WS-30A型气敏元件分析仪测试了H2 S传感器敏感特性、温度特性、湿度特性、动态响应、抗干扰特性和稳定性。结果表明,以C50纳米纤维为敏感薄膜(膜厚为70 nm)的H2 S传感器,在温度为25℃, H2 S气体浓度为10~60 mg/L时,传感器线性度和灵敏度分别为92.3％和98.2％,响应最大值为1080,承受的最大相对湿度为95％,动态响应和恢复时间分别为4和12 s。此传感器对CO, NO2, SO2, NH3, CO2, CH4和H2等有害气体具有较好的抗干扰性。在矿井中连续使用12月后,响应衰减了9.2％,响应正常时间为10.9月。

Research on Thin Film type Hydrogen Sulfide Sensor Based on SnO2-CuO Nanofibers

A SnO2-CuO composite nanofiber was prepared by the coaxial electrospinning method. A new thin-film-type hydrogen sulfide gas sensor was designed by coating SnO2-CuO composite nanofibers onto an alumina ceramic tube with Au electrodes by dip-coating method. The crystalline phase and microstructure of SnO2-CuO composite nanofibers were characterized using X-ray diffraction ( XRD ) and scanning electron microscope ( SEM) . The influence of chemical composition and thickness of sensitive film on the sensitive mechanism and electrochemical characteristic of SnO2-CuO nanofibers were analyzed. The characteristic tests of hydrogen sulfide sensor including sensitive performance, temperature, relative humidity, dynamic response, interference and stability were carried out by WS-30A type multifunction analyzer in gas sensor test system. The results demonstrated that, when the operating temperature was 25℃ and hydrogen sulfide gas concentration increased from 10 to 60 mg/L, the hydrogen sulfide sensor based on C50 composite nanofibers with 70 nm sensitive film thickness had the best linearity (92. 3%) and sensitivity (98. 2%). Besides, its highest response values and relatively humidity level were 1080 and 95%, respectively, and its dynamic response time and recover time were 4 s and 12 s, respectively. This sensor showed good anti-disturbance to the gases, such as CO, NO2 , SO2 , NH3 , CO2 , CH4 and H2 . The response value of the sensor was attenuated about 9. 2% when it was applied continually in the mine about 12 months, and its normal response time was 10. 9 months.