基于纳米晶ZnO-SnO2复合材料气敏应用平台的开发

2016 IEEE Uttar Pradesh Section International Conference on Electrical, Computer and Electronics Engineering (UPCON) Pub Date : 1900-01-01 DOI:10.1109/UPCON.2016.7894641

P. Sahu, L. Chandra, R. Prakash, V. Mishra

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引用次数: 0

摘要

采用静电凝胶法合成了纳米ZnO-SnO2复合材料。所得的干凝胶在较高温度(600℃)下进行煅烧处理。x射线衍射表征证实了复合材料的纳米晶生长。ZnO和SnO2复合金属氧化物的平均晶粒尺寸分别为24 nm和8.9 nm。利用所得的纳米晶复合粉末，采用简单的制备工艺制备了基于化学电阻器的气体传感器;其中活性物质是用刷涂在预图案金电极上生长的。所制造的基于化学电阻器的气体传感器对丙酮而不是其他测试气体非常敏感和选择性。当丙酮浓度为1000ppm时，最大灵敏度为84.60%，与其他还原性气体如NH3、CH4、LPG等也有交叉敏感性。

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Development of nanocrystalline ZnO-SnO2 composite based platform for gas sensing applications

Nanocrystalline ZnO-SnO2 composite is synthesized incorporating xerogel route. The obtained xerogel undergoes calcination process at a higher temperature (600°C). X-ray diffraction characterization confirms the nanocrystalline growth of composite material. The average crystalline size obtained for ZnO and SnO2 composite metal oxides are 24 nm and 8.9 nm respectively. As obtained nanocrystalline composite powder is further used to fabricate the chemo resistor based gas sensor using simple fabrication techniques; where the active material is grown using brush coating over the pre-patterned gold electrodes. The fabricated chemo resistor based gas sensor is exquisitely sensitive and selective to Acetone rather than other test gases. Acetone having 1000 ppm concentration shows the maximum sensitivity of 84.60%, which is also cross sensitive with other reducing gases such as NH3, CH4, LPG, etc.

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来源期刊

2016 IEEE Uttar Pradesh Section International Conference on Electrical, Computer and Electronics Engineering (UPCON)

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