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SnO_2/C复合材料的制备及NO_x气敏研究 被引量:1

Preparation of SnO_2/C composite and NO_x gas sensor
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摘要 为制备在室温条件下对NOx的检测具有低检测线、响应迅速、灵敏度高的材料,通过高压静电纺丝法制备了多孔SnO2/C复合材料,采用TEM、SEM、XRD等手段研究了复合材料形貌及结构.研究表明:SnO2/C复合材料表面存在丰富的微孔、介孔和大孔,且以10 nm左右的介孔居多.室温下(16~18℃)对SnO2/C复合材料NOx气敏性的检测研究发现,SnO2/C复合材料对NOx有很好的气敏响应,最低检测体积分数可达0.97×10-7.放置48 h后再重复进行相同浓度的气敏性检测时,复合材料的气敏响应重复性较好.复合材料的气敏机理研究表明,空气中的氧气吸附于多孔SnO2/C复合材料表面,形成的氧负离子有助于提高NOx气敏性能. To study and prepare the material possessing low detection level,fast response and high sensitivity to NOx at room temperature,SnO2/C is synthesized by electrospunning method.The characteristics and morphology of the material are studied by SEM,TEM,XRD.The results show that the surface of the material possesses a wealth of microporous,mesoporous and macroporous,and the majority of the mesoporous is about 10 nm.At room temperature(16~18 ℃),NOx gas sensor test reveals that the composite material which is composed of PS/SnCl2 nanofibers has better sensitivity of NOx than pure SnO2 after calcinations.The volume fraction of the lowest detection is 0.97×10-7,and after 48 h,the reproducibility is also better.The mechanism of gas sensor indicates that O2 in air is adsorbed on the surface of SnO2/C composite,then O-is formecl.It causes that the sensitivity of SnO2/C is improved.
作者 江超 李丽 张国 广新颖 史克英
机构地区 黑龙江大学功能无机材料化学省部共建教育部重点实验室 黑龙江大学化学化工与材料学院物理化学重点实验室
出处 《材料科学与工艺》 EI CAS CSCD 北大核心 2011年第5期54-57,62,共5页 Materials Science and Technology
基金 国家自然科学基金资助项目(21076066) 黑龙江省博士后科研启动基金资助项目(LBH-Q07111).
关键词 高压静电纺丝 聚苯乙烯(PS) SnO2/C复合材料 NOx气敏性 electrospun polystyrene(PS) SnO2/C composite materials NOx gas sensor
分类号 O643.364 [理学—物理化学]
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参考文献18

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  • 2Qianqian Lin,Yang Li,Mujie Yang.Tin oxide/graphene composite fabricated via a hydrothermal method for gas sensors working at room temperature[J].Sensors & Actuators: B Chemical.2012
  • 3Lili Wang,Jianan Deng,Teng Fei,Tong Zhang.Template-free synthesized hollow NiO–SnO 2 nanospheres with high gas-sensing performance[J].Sensors & Actuators: B Chemical.2012(1)
  • 4Kang-Min Kim,Kwon-Il Choi,Hyun-Mook Jeong,Hyo-Joong Kim,Hae-Ryong Kim,Jong-Heun Lee.Highly sensitive and selective trimethylamine sensors using Ru-doped SnO 2 hollow spheres[J].Sensors & Actuators: B Chemical.2012
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  • 6M. Li,L.J. Qiao,W.Y. Chu,Alex A. Volinsky.Water pre-adsorption effect on room temperature SnO 2 nanobelt ethanol sensitivity in oxygen-deficient conditions[J].Sensors & Actuators: B Chemical.2011(1)
  • 7Yangong Zheng,Jing Wang,Pengjun Yao.Formaldehyde sensing properties of electrospun NiO-doped SnO 2 nanofibers[J].Sensors & Actuators: B Chemical.2011(2)
  • 8A. Forleo,L. Francioso,S. Capone,F. Casino,P. Siciliano,O.K. Tan,H. Hui.Fabrication at wafer level of miniaturized gas sensors based on SnO 2 nanorods deposited by PECVD and gas sensing characteristics[J].Sensors & Actuators: B Chemical.2010(2)
  • 9Qi Qi,Tong Zhang,Li Liu,Xuejun Zheng,Geyu Lu.Improved NH 3 , C 2 H 5 OH, and CH 3 COCH 3 sensing properties of SnO 2 nanofibers by adding block copolymer P123[J].Sensors & Actuators: B Chemical.2009(1)
  • 10Ying Zong,Yali Cao,Dianzeng Jia,Pengfei Hu.The enhanced gas sensing behavior of porous nanocrystalline SnO 2 prepared by solid-state chemical reaction[J].Sensors & Actuators: B Chemical.2009(1)

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材料科学与工艺
2011年 第5期

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