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材料工程 2007

一维V2O5纳米材料的性质及其应用进展

, PP. 73-78

李莉,王宝辉,童茂松

Keywords: 一维纳米材料,V2O5,性质,应用,综述

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Abstract:

本文综述了不同形态的一维V2O5纳米材料(包括纳米线、纳米棒、纳米管、纳米带)的电、磁、电化学以及光学性质,及其在传感器与致动器、场效应管(FET)、金属-绝缘体-半导体(MIS)结构、Li离子电池电极、超级电化学电容器、电致变色器件、纳米光刻模板等方面的应用,并对一维V2O5纳米材料的未来发展方向进行了展望。

References

[1]	马江虹,翟玉春,于旭光,等.一维纳米材料的研究进展[J].稀有金属与硬质合金,2004,32(4):41-45.
[2]	李莉,童茂松,翁爱华.V2O5薄膜在传感器上的研究进展[J].功能材料,2005,36(10):1482-1484.
[3]	童茂松.薄膜气体传感器及四单元微结构气体传感器阵列的研究[D].长春:吉林大学,2001.
[4]	童茂松,戴国瑞,阎玮,等.复合钒钼酸干凝胶薄膜的湿敏特性研究[J].仪器仪表学报,2000,22(21):45-47.
[5]	李莉,童茂松,翁爱华.复合钒钼酸干凝胶薄膜湿敏特性的影响因素[J].电子元件与材料,2006,25(8):25-28.
[6]	李莉,童茂松,翁爱华.复合钒钼酸干凝胶薄膜的制备及其湿敏特性研究[J].传感技术学报,2005,18(4),710-712.
[7]	李莉,童茂松,翁爱华.复合钒钼酸干凝胶薄膜湿敏元件的复阻抗谱[J].传感器与微系统,2006,25(5):39-41.
[8]	童茂松,戴国瑞,何秀丽,等.TiO2/V2O5双层薄膜的TMA气敏特性研究[J].传感器技术,2000,19(4):5-10.
[9]	李莉,童茂松,翁爱华.复合钒钼酸干凝胶薄膜湿敏元件的感湿机理[J].电子元件与材料,2006,25(6):30-32.
[10]	魏任重,李凤仪,居艳.模板法合成一维纳米材料的研究进展[J].工业催化,2004,12(5):1-5.
[11]	NORDLINDER S,EDSTROM K,GUSTAFSSON T.The performance of vanadium oxide nanorolls as cathode material in a rechargeable lithium battery[J].Electrochemical and Solid-state Letters,2001,4(8):A129-A131.
[12]	LI Wei-yang,MA Hua,CHEN Jun.Electrochemical lithium intercalation/deintercalation of single-crystalline V2O5 nanowires[J].Journal of the Electrochemical Society,2007,154(1):A39-A42.
[13]	TAKAHASHI K,LIMMER S J,WANG Y,et al.Synthesis and electrochemical properties of single-crystal V2O5 nanorod arrays by template-based electrodeposition[J].Journal of Physical Chemistry B,2004,108:9795-9800.
[14]	TAKAHASHI K,WANG Y,CAO G.Growth and electrochromic properties of single-crystal V2O5 nanorod arrays[J].Applied Physics Letters,2005,86:053102/1-3.
[15]	HULTEEN J C,MARTIN C R.A general template-based method for the preparation of nanomaterials[J].Journal of Materials Chemistry,1997,7(7):1075-1087.
[16]	CAO G Z.Growth of oxide nanorod arrays through sol electrophoretic deposition[J].Journal of Physical Chemistry B,2004,108:19921-19931.
[17]	陈文,彭俊锋麦立强,等.两种一维纳米结构钒氧化物的合成与表征[J].无机化学学报,2004,20(2):147-151.
[18]	CHEN Wen,MAI Li-qiang,QI Yan-yuan,et al.One-dimensional nanomaterials of vanadium and molybdenum oxides[J].Journal of Physics and Chemistry of Solids,2006,67:896-902.
[19]	尹桂波,张幼珠.电子纺丝及其制备的纳米纤维的应用[J].合成纤维,2004,33:13-15.
[20]	MAI Li-qiang,CHEN Wen,XU Qing,et al.Cost-saving synthesis of vanadium oxide nanotubes[J].Solid State Communications,2003,126:541-543.
[21]	CHEN Wen,MAI Li-qiang,PENG Jun-feng,et al.FTIR study of vanadium oxide nanotubes from lamellar structure[J].Journal of Materials Science,2004,39:2625-2627.
[22]	陈文,麦立强,徐庆,等.氧化钒纳米管的自组装合成机理[J].无机材料学报,2005,20(1):65-70.
[23]	NIEDERBERGER M,MUHR H J,KRUMEICH F,et al.Low-cost synthesis of vanadium oxide nanotubes via two novel non-alkoxide routes[J].Chemistry of Materials,2000,12:1995-2000.
[24]	PERIASAMY V,NARAYAN B,HAK Y K,et al.Vanadium pentoxide nanofibers by electrospinning[J].Scripta Materialia,2003,49:577-581.
[25]	IVANOVSKAYA V V,ENYASHIN A N,SOFRONOV A A,et al.Electronic properties of single-walled V2O5 nanotubes[J].Solid State Communications,2003,126:489-493.
[26]	ENYASHIN A N,IVANOVSKAYA V V,MAKURIN YU N,et al.Computer modeling of electronic properties of scroll-like V2O5-based nanotubes[J].Condensed Matter,2003,8:0309179/1-6.
[27]	MUSTER J,KIM G T,KRSTIC V,et al.Electrical transport through individual vanadium pentoxide nanowires[J].Advanced Materials,2000,12(6):420-424.
[28]	G(O)MEZ-NAVARRO C,DE PABLOP J,COLCHERO J,et al.Electrical transport in vanadium pentoxide nanowires[A].Trends in Nanotechnology International Conference(TNT2001)[C].Segovia:University SEK,2001.1-5.
[29]	VAVILOVA E,HELLMANN I,KATAEV V,et al.Magnetic properties of vanadium oxide nanotubes probed by static magnetization and 51 V NMR[J].Physical Review B,2006,73:144417/1-7.
[30]	IMADA M,FUJIMORI A,TOKURA Y.Metal-insulator transitions[J].Reviews of Modern Physics,1998,70(4):1039-1263.
[31]	KRUSIN-ELBAUM L,NEWNS D M,ZENG H,et al.Room-temperature ferromagnetic nanotubes controlled by electron or hole doping[J].Nature,2004,431:672-676.
[32]	PATRISSI C J,MARTIN C R.Sol-gel-based template synthesis and Li-insertion rate performance of nanostructured vanadium pentoxide[J].Journal of the Electrochemical Society,1999,146(9):3176-3180.
[33]	LIU X,T(A)SCHNER C,LEONHARDT A,et al.Structural,optical and electronic properties of vanadium oxide nanotubes[J].Physical Review B,2005,72:115407/1-5.
[34]	MAI Li-qiang,CHEN Wen,YU Hua,et al.Optical property of vanadium oxide nanotube suspensions[A].Materials Research Sociaty Symposium Proceedings[C].Warrendale:Materials Research Sociaty,2005.
[35]	CAO J,CHOI J,MUSFELDT J L,et al.Effect of sheet distance on the optical properties of vanadate nanotubes[J].Chemistry of Materials,2004,16:731-736.
[36]	CHEN Wen,MAI Li-qiang,PENG Jun-feng,et al.Raman spectroscopic study of vanadium oxide nanotubes[J].Jouranl of Solid State Chemistry,2004,177:377-379.
[37]	LIU J,WANG X,PENG Q,et al.Preparation and gas sensing properties of vanadium oxide nanobelts coated with semiconductor oxides[J].Sensors and Actuators B,2006,115(1):481-487.
[38]	LIU Jun-feng,WANG Xun,PENG Qing,et al.Vanadium pentoxide nanobelt:highly selective and stable ethanol sensor materials[J].Advanced Materials,2005,17(6):764-767.
[39]	RAIBLE I,BURGHARD M,SCHLECHT U,et al.V2O5 nanofibres:novel gas sensors with extremely high sensitivity and selectivity to amines[J].Sensors and Actuators B,2005,106:730-735.
[40]	BAUGHMAN R H,CUI C,ZAKHIDOV A A,et al.Carbon nanotube actuators[J].Science,1999,284:1340-1344.
[41]	GU G,SCHMID M,CHIU P W,et al.V2O5 nanofibre sheet actuators[J].Natural Materials,2003,2(5):316-319.
[42]	KIM G T,MUSTER J,KRSTIC V,et al.Field-effect transistor made of individual V2O5 nanofibers[J].Applied Physics Letters,2000,76(14):1875-1877.
[43]	MYUNG S,LEE M,KIM G T,et al.Large-scale "surface-programmed assembly" of pristine vanadium oxide nanowire-based devices[J].Advanced Materials,2005,17:2361-2364.
[44]	MIN M R,KIM J H,KIM E K,et al.Electrical properties of V2O5(vanadium pentoxide)nanowires[J].Journal of the Korean Physical Society,2006,49(3):1097-1100.
[45]	DOBLEY A,NGALA K,YANG S,et al.Manganese vanadium oxide nanotubes:synthesis,characterization and electrochemistry[J].Chemistry of Materials,2001,13:4382-4386.
[46]	WANG Y,TAKAHASHIL K,SHANG H,et al.Growth and electrochemical properties of V2O5 nanotube arrays[A].Materials Research Sociaty Symposium Proceedings[C].Warrendale:Materials Research Sociaty,2005.
[47]	BAZITO F F C,TORRESI R M.Cathodes for lithium ion batteries:the benefits of using nanostructured materials[J].Journal of Brazilian Chemical Society,2006,17(4):627-642.
[48]	YU Long,ZHANG Xiao-gang.Hydrothermal synthesis and characterization of vanadium oxide/titanate composite nanorods[J].Materials Chemistry and Physics,2004,87:168-172.
[49]	SORDAN R,BURGHARD M,KERN K.Removable template route to metallic nanowires and nanogaps[J].Applied Physics Letters,2001,79(13):2073-2075.
[50]	PARK H,PARK J,LIM A K L,et al.Nanomechanical oscillations in a single-C60 transistor[J].Nature(London),2000,407:57-60.
[51]	ANCONA M G,KOOI S E,KRUPPA W,et al.Patterning of narrow au nanocluster lines using V2O5 nanowire masks and ion-beam milling[J].Nano Letters,2003,3(2):135-138.
[52]	CHENG K C,CHEN F R,KAI J J.V2O5 nanowires as a functional material for electrochromic device[J].Solar Energy Materials & Solar Cells,2006,90:1156-1165.

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