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本文采用热蒸发法合成了高结晶度的WO3纳米线薄膜,并利用溅射法把Pt纳米颗粒催化剂均匀溅射到纳米线的表面,形成Pt表面修饰WO3纳米线的复合纳米网络结构.气敏传感性能测试结果表明,在工作温度为100~140℃,Pt表面修饰的WO3纳米线薄膜对高浓度氢气具有响应度高(电阻变化率接近100%)、响应时间短(小于1.0s)、可重复性好等特点,能够有效地降低传感器的工作温度,解决高浓度探测时的饱和和失效问题,在工业生产中具有潜在的应用价值.

参考文献

[1] William J. Buttner;Matthew B. Post;Robert Burgess;Carl Rivkin .An overview of hydrogen safety sensors and requirements[J].International journal of hydrogen energy,2011(3):2462-2470.
[2] Hübert, T.;Boon-Brett, L.;Black, G.;Banach, U. .Hydrogen sensors - A review[J].Sensors and Actuators, B. Chemical,2011(2):329-352.
[3] Korotcenkov, G;Do Han, S;Stetter, JR .Review of Electrochemical Hydrogen Sensors[J].Chemical Reviews,2009(3):1402-1433.
[4] Vladimir Aroutiounian .Metal oxide hydrogen, oxygen, and carbon monoxide sensors for hydrogen setups and cells[J].International journal of hydrogen energy,2007(9):1145-1158.
[5] Ahsan, M.;Ahmad, M.Z.;Tesfamichael, T.;Bell, J.;Wlodarski, W.;Motta, N. .Low temperature response of nanostructured tungsten oxide thin films toward hydrogen and ethanol[J].Sensors and Actuators, B. Chemical,2012(1):789-796.
[6] Thomas Kiefer;Luis Guillermo Villanueva;Frederic Fargier;Frederic Favier;Jurgen Brugger .The transition in hydrogen sensing behavior in noncontinuous palladium films[J].Applied physics letters,2010(12):121911-1-121911-3.
[7] Xu T;Zach MP;Xiao ZL;Rosenmann D;Welp U;Kwok WK;Crabtree GW .Self-assembled monolayer-enhanced hydrogen sensing with ultrathin palladium films[J].Applied physics letters,2005(20):3104-1-3104-3-0.
[8] L. Boon-Brett;J. Bousek;P. Moretto .Reliability Of Commercially Available Hydrogen Sensors For Detection Of Hydrogen At Critical Concentrations: Part Ⅱ - Selected Sensor Test Results[J].International journal of hydrogen energy,2009(1):562-571.
[9] Eui-Bok Lee;In-Sung Hwang;Jung-Ho Cha;Ho-Jun Lee;Won-Bae Lee;James Jungho Pak;Jong-Heun Lee;Byeong-Kwon Ju .Micromachined catalytic combustible hydrogen gas sensor[J].Sensors and Actuators, B. Chemical,2011(2):392-397.
[10] C. F. Lo;C. Y. Chang;B. H. Chu;S. J. Pearton;A. Dabiran;P. P. Chow;F. Ren .Effect of humidity on hydrogen sensitivity of Pt-gated AlGaN/GaN high electron mobility transistor based sensors[J].Applied physics letters,2010(23):232106-1-232106-3.
[11] Farshid Raissi;Rashid Farivar .Room-temperature hydrogen gas sensor[J].Applied physics letters,2005(16):164101.1-164101.3.
[12] Yan-Ying Tsai;Kun-Wei Lin;Huey-Ing Chen;Ching-Wen Hung;Tzu-Pin Chen;Wen-Chau Liu .Comprehensive analysis of hydrogen sensing properties of a Pd-gate metal-semiconductor high electron mobility transistor[J].Applied physics letters,2007(25):253503-1-253503-3-0.
[13] Samerjai, T.;Tamaekong, N.;Liewhiran, C.;Wisitsoraat, A.;Tuantranont, A.;Phanichphant, S. .Selectivity towards H_2 gas by flame-made Pt-loaded WO _3 sensing films[J].Sensors and Actuators, B. Chemical,2011(1):290-297.
[14] Wantae Lim;J. S. Wright;B. P. Gila;S. J. Pearton;F. Ren;Wei-Ta Lai;Li-Chyong Chen;Ming-Shien Hu;Kuei-Hsien Chen .Selective-hydrogen sensing at room temperature with Pt-coated InN nanobelts[J].Applied physics letters,2008(20):202109-1-202109-3-0.
[15] Tien LC;Sadik PW;Norton DP;Voss LF;Pearton SJ;Wang HT;Kang BS;Ren F;Jun J;Lin J .Hydrogen sensing at room temperature with Pt-coated ZnO thin films and nanorods[J].Applied physics letters,2005(22):2106-1-2106-3-0.
[16] Yugang Sun;H. Hau Wang .Electrodeposition of Pd nanoparticles on single-walled carbon nanotubes for flexible hydrogen sensors[J].Applied physics letters,2007(21):213107-1-213107-3-0.
[17] I. Sayago;E. Ten-ado;E. Lafuente .Hydrogen sensors based on carbon nanotubes thin films[J].Synthetic Metals,2005(1):15-19.
[18] Chu, B.H.;Lo, C.F.;Nicolosi, J.;Chang, C.Y.;Chen, V.;Strupinski, W.;Pearton, S.J.;Ren, F. .Hydrogen detection using platinum coated graphene grown on SiC[J].Sensors and Actuators, B. Chemical,2011(2):500-503.
[19] Zhu, L.F.;She, J.C.;Luo, J.Y.;Deng, S.Z.;Chen, J.;Ji, X.W.;Xu, N.S. .Self-heated hydrogen gas sensors based on Pt-coated W_(18)O _(49) nanowire networks with high sensitivity, good selectivity and low power consumption[J].Sensors and Actuators, B. Chemical,2011(2):354-360.
[20] 罗坚义 .氧化钨纳米线薄膜的光学特性的基础研究[D].中山大学,2009.
[21] Chen, S.;Luo, J.;Tan, H.;Chen, J.;Deng, S.;Xu, N. .Study of self-heating phenomenon and its resultant effect on ultrafast gasochromic coloration of Pt-WO _3 nanowire films[J].Sensors and Actuators, B. Chemical,2012(1):824-832.
[22] 张转芳,殷广明,杨颖.Cu2O/MWCNTs的制备、机理及气敏性研究[J].人工晶体学报,2013(02):351-354,376.
[23] 周小岩,黄柳宾,李传勇,刘晓龙.乙醇气体的浓度对氧化锌纳米棒气敏元件电学性能的影响[J].人工晶体学报,2012(05):1313-1317.
[24] Jian Yi Luo;Xue Xian Chen;Wei Da Li;Wei Yuan Deng;Wei Li;Hao Yuan Wu;Lian Feng Zhu;Qing Guang Zeng .Variable-temperature Raman spectroscopic study of the hydrogen sensing mechanism in Pt-WO_3 nanowire film[J].Applied physics letters,2013(11):113104-1-113104-5.
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