作为国家重要的战略金属资源,钒及其化合物被广泛用于冶金、航空航天、化工等领域.近年来,随着资源、能源及环境压力的逐步增大,储能及环境领域中新型钒材料研究越发活跃,一大批具备高性能的钒系电极材料、钒颜料、钒系催化剂涌现出来,然而,钒材料的高成本成为其最终实现工业化的一大障碍.纳米技术、生物医药技术的发展与完善使低成本制备高性能新型钒系复合材料成为可能,使新型钒材料在具备高性能的同时自身对环境友好,制备及使用成本大幅下降,使钒材料应用领域得以极大拓展,显示出巨大的发展和应用前景.
参考文献
| [1] | 孙远龙,田先国.我国硫酸钒催化剂的现状及发展方向[J].硫酸工业,2008(03):6-9. |
| [2] | 杨绍利,彭富昌,潘复生,高仕忠.钒系催化剂的研究与应用[J].材料导报,2008(04):53-56. |
| [3] | 马建蓉,刘振宇,郭士杰.同时脱除烟气中硫和硝的V2O5/AC催化剂研究[J].燃料化学学报,2005(01):6-11. |
| [4] | Feng Dong;Scott Heinbuch;Yan Xie;Elliot R. Bernstein;Jorge J. Rocca;Zhe-Chen Wang;Xun-Lei Ding;Sheng-Gui He .CC Bond Cleavage on Neutral VO3(V2O5)n Clusters[J].Journal of the American Chemical Society,2009(3):1057-1066. |
| [5] | Dong F;Heinbuch S;Xie Y;Rocca JJ;Bernstein ER;Wang ZC;Deng K;He SG .Experimental and theoretical study of the reactions between neutral vanadium oxide clusters and ethane, ethylene, and acetylene[J].Journal of the American Chemical Society,2008(6):1932-1943. |
| [6] | Carole Brown;Randall Achey;Riqiang Fu;Thomas Gedris;A.E.Stiegman .Characterization of Reactive Sites in Supported Catalysts by ~51V/~15N Rotational Echo Double Resonance NMR Spectroscopy:Formation of Phenylimido Groups at Surface-Bound Oxovanadium Sites[J].Journal of the American Chemical Society,2005(33):11590-11591. |
| [7] | Joost N.J.van Lingen;Onno L.J.Gijzeman;Bert M.Weckhuysen;Joop H.van Lenthe .On the umbrella model for supported vanadium oxide catalysts[J].Journal of Catalysis,2006(1):34-41. |
| [8] | Eman Fahmy Aboelfetoh;Michael Fechtelkord;Rudolf Pietschnig .Structure and catalytic properties of MgO-supported vanadium oxide in the selective oxidation of cyclohexane[J].Journal of molecular catalysis, A. Chemical,2010(1/2):51-59. |
| [9] | 刘坚,赵震,徐春明,段爱军,姜桂元.Al2O3或SiO2负载钒氧化物催化剂的紫外-拉曼光谱比较研究[J].工业催化,2008(10):35-37. |
| [10] | 杨绍利,潘复生,马兰,高仕忠.高效纳米钒催化剂非液相催化氧化机理研究[J].材料导报,2010(04):115-118. |
| [11] | Nakka, L;Molinari, JE;Wachs, IE .Surface and Bulk Aspects of Mixed Oxide Catalytic Nanoparticles: Oxidation and Dehydration of CH3OH by Polyoxometallates[J].Journal of the American Chemical Society,2009(42):15544-15554. |
| [12] | Molinari, J.E.;Wachs, I.E. .Presence of surface vanadium peroxo-oxo umbrella structures in supported vanadium oxide catalysts: Fact or fiction?[J].Journal of the American Chemical Society,2010(36):12559-12561. |
| [13] | Hanson, S.K.;Baker, R.T.;Gordon, J.C.;Scott, B.L.;Silks, L.A.P.;Thorn, D.L. .Mechanism of alcohol oxidation by dipicolinate vanadium(V): Unexpected role of pyridine[J].Journal of the American Chemical Society,2010(50):17804-17816. |
| [14] | LIU Jian,ZHAO Zhen,XU Chunming,DUAN Aijun,JIANG Guiyuan.CeO2-supported vanadium oxide catalysts for soot oxidation: the roles of molecular structure and nanometer effect[J].稀土学报(英文版),2010(02):198-204. |
| [15] | 杨绍利,潘复生,彭富昌,高仕忠.新型纳米钒催化剂的制备及性能研究[J].材料导报,2008(Z2):24-26. |
| [16] | Schneider CJ;Penner-Hahn JE;Pecoraro VL .Elucidating the protonation site of vanadium peroxide complexes and the implications for biomimetic catalysis[J].Journal of the American Chemical Society,2008(9):2712-2713. |
| [17] | Jing-Jong Shyue;Mark R. De Guire .Single-Step Preparation of Mesoporous, Anatase-Based Titanium-Vanadium Oxide and Its Application[J].Journal of the American Chemical Society,2005(36):12736-12742. |
| [18] | S. Todorova;V. Parvulescu;G. Kadinov .Metal states in cobalt- and cobalt-vanadium-modified MCM-41 mesoporous silica catalysts and their activity in selective hydrocarbons oxidation[J].Microporous and mesoporous materials: The offical journal of the International Zeolite Association,2008(1/3):22-30. |
| [19] | 刘进,吴绍华,兰尧中.新型材料铋黄的研究进展[J].涂料技术与文摘,2004(06):6-8. |
| [20] | 李伟洲,李少波.钒酸铋颜料的研制[J].贵州化工,2003(01):21-23,26. |
| [21] | Gotic M;Music S;Ivanda M;Soufek M;Popovic S .Synthesis and characterisation of bismuth(III) vanadate[J].Journal of Molecular Structure,2005(0):535-540. |
| [22] | P. Wood;F.P. Glasser .Preparation and properties of pigmentary grade BiVO_4 precipitated from aqueous solution[J].Ceramics International,2004(6):875-882. |
| [23] | 张立 .纳米钒酸铋黄色颜料的制备与应用研究[D].山东大学,2006. |
| [24] | Marcia C.Neves;Marian Lehocky;Rosario Soares;Lubomir Lapcik Jr.;Tito Trindade .Chemical bath deposition of cerium doped BiVO_4[J].Dyes and Pigments,2003(2):181-184. |
| [25] | 刘晶冰,张慧明,汪浩,张文熊.纳米钒酸铋的微波快速合成及光催化性能研究[J].无机化学学报,2008(05):777-780. |
| [26] | 林茹.BiVO4纳米复合氧化物的制备及光催化性能研究[J].新乡学院学报(自然科学版),2008(03):46-47. |
| [27] | 王凡,张改莲,杨凌露,马辉.包核型钒酸铋颜料的合成与性能研究[J].北京师范大学学报(自然科学版),2001(02):221-224. |
| [28] | 王凡 .钒酸铋颜料的合成、结构及性能研究[D].北京师范大学,2000. |
| [29] | 张萍,张星辰,次立杰,段书德,许保恩,赵建路.耐高温钒酸铋黄色颜料的制备[J].精细化工,2007(07):706-709. |
| [30] | 邢占军,郝乐,仇洁楠,次立杰,任蕾,张萍.包覆型超细黄色颜料BiVO4的制备研究[J].石家庄学院学报,2008(03):14-17. |
| [31] | 唐安平.钒酸铋颜料的开发进展[J].有色金属,2005(04):43-46. |
| [32] | 杨萍,李淑珍,孙飞.钒锆蓝色料的研制[J].佛山陶瓷,2002(05):11-14. |
| [33] | 俞康泰,朱志斌.液相法制备锆钒蓝色料的研究[J].陶瓷学报,2000(03):131-134. |
| [34] | 俞康泰,朱志斌.锆钒蓝色料中钒的价态研究[J].陶瓷学报,2000(04):186-189. |
| [35] | 高彦峰,柳泽河道.利用标志法研究钒-硅酸锆蓝色颜料的生成机理[J].中国陶瓷,2001(06):5-8,20. |
| [36] | 张强,周学东.关于钒锆蓝色料反应合成过程及其在釉中呈色的研究[J].陶瓷学报,2000(02):121-124. |
| [37] | 高彦峰,柳泽河道.工艺因素对钒锆蓝颜料呈色的影响[J].中国陶瓷,2001(03):1-3,6. |
| [38] | 张勇,王鸿旻 |
| [39] | 田成邦,刘妍.锂离子电池钒系正极材料的研究进展[J].化工技术与开发,2010(06):31-35,27. |
| [40] | 张绍岩 .过渡金属钒氧基电极材料的合成及电化学性能研究[D].南开大学,2007. |
| [41] | Chunmei Ban;Natalya A. Chernova;M. Stanley Whittingham .Electrospun nano-vanadium pentoxide cathode[J].Electrochemistry communications,2009(3):522-525. |
| [42] | Yan L. Cheah;Nutan Gupta;Stevin S. Pramana;Vanchiappan Aravindan;Grace Wee;Madhavi Srinivasan .Morphology, structure and electrochemical properties of single phase electrospun vanadium pentoxide nanofibers for lithium ion batteries[J].Journal of Power Sources,2011(15):6465-6472. |
| [43] | Liu AH;Ichihara M;Honma I;Zhou HS .Vanadium-oxide nanotubes: Synthesis and template-related electrochemical properties[J].Electrochemistry communications,2007(7):1766-1771. |
| [44] | Hailong Fei;Zhurui Shen;Jingui Wang;Huijing Zhou;Datong Ding;Tiehong Chen .Flower-like (nh_4)_(0.83)na_(0.43)v_4o_(10)·0.26h_2o Nano-structure For Stable Lithium Battery Electrodes[J].Journal of Power Sources,2009(2):1164-1166. |
| [45] | 崔朝军,吴广明,张明霞,孙娟萍,杨辉宇,沈军.锂钒氧化物纳米管的合成与表征[J].无机材料学报,2009(04):787-792. |
| [46] | Pavasupree S;Suzuki Y;Kitiyanan A;Pivsa-Art S;Yoshikawa S .Synthesis and characterization of vanadium oxides nanorods[J].International Journal of Quantum Chemistry,2005(6):2152-2158. |
| [47] | Ewerton V. Aguiar;Lidia O.O. Costa;Marco A. Fraga .Impregnating ionic Pt species on vanadium oxide nanotubes[J].Catalysis Today,2009(3/4):207-210. |
| [48] | F. Sediri;F. Touati;N. Gharbi .A one-step hydrothermal way for the synthesis of vanadium oxide nanotubes containing the phenylpropylamine as template obtained via non-alkoxide route[J].Materials Letters,2007(8/9):1946-1950. |
| [49] | Ban, CM;Whittingham, MS .Nanoscale single-crystal vanadium oxides with layered structure by electrospinning and hydrothermal methods[J].Solid state ionics,2008(27/32):1721-1724. |
| [50] | Yu JG;Liu SW;Cheng B;Xiong JF;Yu Y;Wang JB .Polymer-directed large-scale synthesis of single-crystal vanadium oxide nanobelts[J].Materials Chemistry and Physics,2006(2/3):206-210. |
| [51] | Periasamy Viswanathamurthi;Narayan Bhattarai;Hak Yong Kim;Douk Rae Lee .Vanadium pentoxide nanofibers by electrospinning[J].Scripta materialia,2003(6):577-581. |
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