综述了近年来CuO在气敏传感器中的应用研究进展,主要包括纳米结构CuO作为主体传感材料以及掺杂剂时的应用.着重介绍了一维CuO纳米线、纳米棒、纳米管的制备方法及其对常见多种可燃或有毒气体的气敏响应情况.指出了纳米结构CuO是今后CuO在气敏传感器中的重点发展方向,最后提出了CuO气敏材料应用时存在的一些问题以及今后的研究工作重点.
参考文献
[1] | Vander Wal, RL;Hunter, GW;Xu, JC;Kulis, MJ;Berger, GM;Ticich, TM .Metal-oxide nanostructure and gas-sensing performance[J].Sensors and Actuators, B. Chemical,2009(1):113-119. |
[2] | Eranna G.Metal oxide nanostructures as gas sensing devices[M].Boca Raton:CRC Press,2011 |
[3] | 张丽萍.气敏传感器研究新进展[J].吉林工商学院学报,2012(02):91-94. |
[4] | 鲁珊珊,李立峰.气敏传感器的研究现状及发展趋势[J].科技信息,2013(03):282,312. |
[5] | 陈长庆,胡明,吴霞宛.气敏传感器的发展[J].材料导报,2003(01):33-35. |
[6] | 冯庆.超声雾化热分解气相沉积法制备TiO2薄膜的气敏特性研究[J].真空科学与技术学报,2010(04):385-389. |
[7] | Choi, Y.-H.;Kim, D.-H.;Hong, S.-H.;Hong, K.S..H_2 and C_2H_5OH sensing characteristics of mesoporous p-type CuO films prepared via a novel precursor-based ink solution route[J].Sensors and Actuators, B. Chemical,2013:395-403. |
[8] | 蒋亚东;谢光忠.敏感材料与传感器[M].成都:电子科技大学出版社,2008 |
[9] | Steinhauer S et al.Synthesis of high-aspect-ratio CuO nanowires for conductometric gas sensing[J].Procedia Eng,2011,25:1477. |
[10] | Kim, H.;Jin, C.;Park, S.;Kim, S.;Lee, C. .H _2S gas sensing properties of bare and Pd-functionalized CuO nanorods[J].Sensors and Actuators, B. Chemical,2012(1):594-599. |
[11] | Aslani, A.;Oroojpour, V. .CO gas sensing of CuO nanostructures, synthesized by an assisted solvothermal wet chemical route[J].Physica, B. Condensed Matter,2011(2):144-149. |
[12] | Feng Zhang;Anwei Zhu;Yongping Luo .CuO Nanosheets for Sensitive and Selective Determination of H2S with High Recovery Ability[J].The journal of physical chemistry, C. Nanomaterials and interfaces,2010(45):19214-19219. |
[13] | Zhu Guoxing et al.Facile synthesis and enhanced H2S sensing properties of hierarchically porous CuO architectures[J].ACS Appl Mater Interf,2012,4:744. |
[14] | 田敬民,李守智.金属氧化物半导体气敏机理探析[J].西安理工大学学报,2002(02):144-147. |
[15] | 王利霞.纳米材料在气敏传感器上的应用现状研究[J].科技信息,2011(35):671-672,647. |
[16] | 赵书华,宋丽岩.纳米材料气敏传感器[J].吉林师范大学学报(自然科学版),2004(02):38-39,42. |
[17] | 任宏亮,何金田,梁二军,田臻锋.纳米气敏传感器研究进展[J].微纳电子技术,2003(06):16-21. |
[18] | Yamazoe N .New approaches for improving semiconductor gas sensors[J].Sensors Actuators B:Chem,1991,5:7. |
[19] | Sun Y F et al.Metal oxide nanostructures and their gas sensing properties:A review[J].SENSORS,2012,12:2610. |
[20] | Chen, X.;Wong, C.K.Y.;Yuan, C.A.;Zhang, G..Nanowire-based gas sensors[J].Sensors and Actuators, B. Chemical,2013:178-195. |
[21] | Jiang X;Herricks T;Xia Y .CuO nanowires can be synthesized by heating copper substrates in air[J].Nano Letters,2002,2(12):1333. |
[22] | Kim YS;Hwang IS;Kim SJ;Lee CY;Lee JH .CuO nanowire gas sensors for air quality control in automotive cabin[J].Sensors and Actuators, B. Chemical,2008(1):298-303. |
[23] | Steinhauer, S.;Brunet, E.;Maier, T.;Mutinati, G.C.;K?ck, A.;Freudenberg, O.;Gspan, C.;Grogger, W.;Neuhold, A.;Resel, R..Gas sensing properties of novel CuO nanowire devices[J].Sensors and Actuators, B. Chemical,2013:50-57. |
[24] | Steinhauer S.On-chip synthesis of CuO nanowires for direct gas sensor integration[A].Birmingham,2012 |
[25] | Steinhauer S et al.Single suspended CuO nanowire for conductometric gas sensing[J].Procedia Eng,2012,47:17. |
[26] | Steinhauer, S.;Brunet, E.;Maier, T.;Mutinati, G.C.;K?ck, A..Suspended CuO nanowires for ppb level H_2S sensing in dry and humid atmosphere[J].Sensors and Actuators, B. Chemical,2013:550-556. |
[27] | Zou, C.W.;Wang, J.;Liang, F.;Xie, W.;Shao, L.X.;Fu, D.J. .Large-area aligned CuO nanowires arrays: Synthesis, anomalous ferromagnetic and CO gas sensing properties[J].Current applied physics: the official journal of the Korean Physical Society,2012(5):1349-1354. |
[28] | Hoa, ND;Quy, NV;Jung, H;Kim, D;Kim, H;Hong, SK .Synthesis of porous CuO nanowires and its application to hydrogen detection[J].Sensors and Actuators, B. Chemical,2010(1):266-272. |
[29] | Jin C et al.NO2 gas sensing properties of ZnO sheathed CuO nanorods[J].Surface and Interface Analysis,2012,44(11-12):1534. |
[30] | Khameneh Asl, S.;Alavi, B.;Ahmadi, S. .The effect of highly ordered titania nanotube structures on hydrogen gas detection[J].Surface and Interface Analysis: SIA: An International Journal Devoted to the Development and Application of Techniques for the Analysis of Surfaces, Interfaces and Thin Films,2012(8):1051-1053. |
[31] | Artzi-Gerlitz R;Benkstein KD;Lahr DL;Hertz JL;Montgomery CB;Bonevich JE;Semancik S;Tarlov MJ .Fabrication and gas sensing performance of parallel assemblies of metal oxide nanotubes supported by porous aluminum oxide membranes[J].Sensors and Actuators, B. Chemical,2009(1):257-264. |
[32] | Yuzeng Sun;Lin Ma;Baibin Zhou;Peng Gao .Cu(OH)_2 and CuO nanotube networks from hexaoxacyclooctadecane-like posnjakite microplates:Synthesis and electrochemical hydrogen storage[J].International journal of hydrogen energy,2012(3):2336-2343. |
[33] | Xinhua Chen;Linghao Kong;Dong Dong;Guangbin Yang;Laigui Yu;Jianmin Chen;Pingyu Zhang .Synthesis And Characterization Of Superhydrophobic Functionalized Cu(oh)_2 Nanotube Arrays On Copper Foil[J].Applied Surface Science: A Journal Devoted to the Properties of Interfaces in Relation to the Synthesis and Behaviour of Materials,2009(7):4015-4019. |
[34] | Yang, Y.J.;Li, W.;Chen, X. .Highly enhanced electrocatalytic oxidation of glucose on Cu (OH) _2/CuO nanotube arrays modified copper electrode[J].Journal of solid state electrochemistry,2012(9):2877-2881. |
[35] | Li N;Li XT;Yin XJ;Wang W;Qiu SL .Electroless deposition of open-end Cu nanotube arrays[J].Solid State Communications,2004(12):841-844. |
[36] | 张银洪,贺蕴秋.气敏材料及其传感器选择性研究进展[J].材料导报,2005(06):23-27. |
[37] | Zhu, CL;Chen, YJ;Wang, RX;Wang, LJ;Cao, MS;Shi, XL .Synthesis and enhanced ethanol sensing properties of alpha-Fe2O3/ZnO heteronanostructures[J].Sensors and Actuators, B. Chemical,2009(1):185-189. |
[38] | Ramgir NS;Mulla IS;Vijayamohanan KP .A room temperature nitric oxide sensor actualized from Ru-doped SnO2 nanowires[J].Sensors and Actuators, B. Chemical,2005(2):708-715. |
[39] | Sun LY.;Quan BF.;Qiu FB. .Investigation of a new catalytic combustion-type CH4 gas sensor with low power consumption[J].Sensors and Actuators, B. Chemical,2000(1/3):289-292. |
[40] | Mark Mashock;Kehan Yu;Shumao Cui .Modulating Gas Sensing Properties of CuO Nanowires through Creation of Discrete Nanosized p-n Junctions on Their Surfaces[J].ACS applied materials & interfaces,2012(8):4192-4199. |
[41] | Wang, X.;Wang, W.;Li, H.;Fu, C.;Ke, Y.;He, S. .Development of a SnO _2/CuO-coated surface acoustic wave-based H _2S sensor with switch-like response and recovery[J].Sensors and Actuators, B. Chemical,2012(1):10-16. |
[42] | Aliha, H.M.;Khodadadi, A.A.;Mortazavi, Y..The sensing behaviour of metal oxides (ZnO, CuO and Sm_2O _3) doped-SnO_2 for detection of low concentrations of chlorinated volatile organic compounds[J].Sensors and Actuators, B. Chemical,2013:637-643. |
[43] | Jeun J H;Kim D H;Hong S H .SnO2/CuO nano-hybrid foams synthesized by electrochemical deposition and their gas sensing properties[J].Materials Letters,2013,105:58. |
[44] | Huang J et al.Preparation of porous flower-like CuO/ZnO nanostructures and analysis of their gas-sensing property[J].Journal of Alloys and Compounds,2013,575:115. |
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