某些含碲杂多化合物的研究
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摘要
本论文由以下四部分组成:
第一部分:前言
介绍了杂多化合物的基本概念、发展历史、基本结构、分类及将来的发展方向,并对含Te杂多化合物的研究现状进行了文献总结。
第二部分:碲钼杂多化合物Ln_2[TeMo_6O_(24)]·20H_2O的合成与表征
本文首次合成了含有Eu和Tb碲钼杂多化合物Ln_2[YeMo_6O_(24)]·6H_2O(Ln=Eu,Tb)。用化学分析、UV、IR、XRD等方法对其进行了表征。
第三部分:H_2Na_2(C_6H_6AsNO_5)_2[CoW_6O_(24)H_6]·2H_2O的合成与表征
本文首次合成了一种特殊的、含有Anderson-Evan结构的无机-有机杂化物H_2Na_2(C_6H_6AsNO_5)_2[CoW_6O_(24)H_6]·2H_2O,通过化学分析、元素分析、IR、UV、XRD等方法对其进行了表征。
第四部分:Na_6[TeCoW_8O_(30)(OH)_2]·28H_2O和Na_6[TeNiW_8O_(30)(OH)_2]·28H_2O的合成与表征
本文首次合成出了Te取代的Co和Ni的杂多阴离子[TeCoW_8O_(30)(OH)_2]~(6-)和[TeNiW_8O_(30)(OH)_2]~(6-),并以Na盐的形式分离出来,阳离子交换表明Ni和Co处于内界。用化学分析、IR、UV、XRD等方法对其进行了表征。
This dissertation is composed of four parts as following:
Part one: review. In this part, the history, structure, classification and future opportunities of heteropoly compounds were reviewed and the research state of heteropoly compounds containing theⅥ_A elements Te as heteroatom was summarized.
Part two: Synthesis and Characterization a series of Heteropolymolybdate with Te~(6+) containing Lanthanide. In this part, two compounds of heteropolymolybdate with Te~(6+) containing lanthanide were synthesized and reported for the first time. The physical and chemical properties of these new heteropoly compounds were studied by using chemical analysis, inductively coupled plasma (ICP) atomic emission spectra, infrared spectra, and UV-vis spetra.
Part three: Organic-Inorganic hybrid: H_2Na_2(C_6H_6AsNO_5)_2[CoW_6O_(24)H_6]·2H_2O was prepared. The physical and chemical properties of this new heteropoly compound was studied by using elementary analysis, chemical analysis, ICP, IR, UV and XRD.
Part four: Synthesis and Characterization of Na_6[TeCoW_8O_(30)(OH)_2]·28H_2O and Na_6[TeNiW_8O_(30)(OH)_2]·28H_2O. In this part, the title compounds were reported for the first time. The physical and chemical properties of these new heteropoly compouds were studied by using chemical analysis, ICP, IR, UV and XRD.
第一部分:前言
介绍了杂多化合物的基本概念、发展历史、基本结构、分类及将来的发展方向,并对含Te杂多化合物的研究现状进行了文献总结。
第二部分:碲钼杂多化合物Ln_2[TeMo_6O_(24)]·20H_2O的合成与表征
本文首次合成了含有Eu和Tb碲钼杂多化合物Ln_2[YeMo_6O_(24)]·6H_2O(Ln=Eu,Tb)。用化学分析、UV、IR、XRD等方法对其进行了表征。
第三部分:H_2Na_2(C_6H_6AsNO_5)_2[CoW_6O_(24)H_6]·2H_2O的合成与表征
本文首次合成了一种特殊的、含有Anderson-Evan结构的无机-有机杂化物H_2Na_2(C_6H_6AsNO_5)_2[CoW_6O_(24)H_6]·2H_2O,通过化学分析、元素分析、IR、UV、XRD等方法对其进行了表征。
第四部分:Na_6[TeCoW_8O_(30)(OH)_2]·28H_2O和Na_6[TeNiW_8O_(30)(OH)_2]·28H_2O的合成与表征
本文首次合成出了Te取代的Co和Ni的杂多阴离子[TeCoW_8O_(30)(OH)_2]~(6-)和[TeNiW_8O_(30)(OH)_2]~(6-),并以Na盐的形式分离出来,阳离子交换表明Ni和Co处于内界。用化学分析、IR、UV、XRD等方法对其进行了表征。
This dissertation is composed of four parts as following:
Part one: review. In this part, the history, structure, classification and future opportunities of heteropoly compounds were reviewed and the research state of heteropoly compounds containing theⅥ_A elements Te as heteroatom was summarized.
Part two: Synthesis and Characterization a series of Heteropolymolybdate with Te~(6+) containing Lanthanide. In this part, two compounds of heteropolymolybdate with Te~(6+) containing lanthanide were synthesized and reported for the first time. The physical and chemical properties of these new heteropoly compounds were studied by using chemical analysis, inductively coupled plasma (ICP) atomic emission spectra, infrared spectra, and UV-vis spetra.
Part three: Organic-Inorganic hybrid: H_2Na_2(C_6H_6AsNO_5)_2[CoW_6O_(24)H_6]·2H_2O was prepared. The physical and chemical properties of this new heteropoly compound was studied by using elementary analysis, chemical analysis, ICP, IR, UV and XRD.
Part four: Synthesis and Characterization of Na_6[TeCoW_8O_(30)(OH)_2]·28H_2O and Na_6[TeNiW_8O_(30)(OH)_2]·28H_2O. In this part, the title compounds were reported for the first time. The physical and chemical properties of these new heteropoly compouds were studied by using chemical analysis, ICP, IR, UV and XRD.
引文
[1] Pope M. T., Muller A., Polyoxometalate chemisty: An old field with new dimension in several disciplines. Angrew Chem. Int. Ed. Engl., 1991,30: 34-38.
[2]胥勃,吴越,杂多酸(盐)——一种多用途的催化剂,化学通报,1985,4:34.
[3]Pope M.T.,王恩波等译,杂多和同多金属氧酸盐.长春:吉林大学出版社,1991.
[4] Ivan V. Kozhevnikov, Catalysis by heteropoly acids and multicomponent polyoxometalates in liquid-phase reactions. Chem. Rev., 1998, 98(1): 171-198.
[5]袁华,王立霞,谢德银等,杂多酸催化剂.沧州师范专科学报,2007,23(2):40-41.
[6] Noritaka Mizuno, Makoto Misono, Heterogeneous catalysis. Chem. Rev., 1998, 98(1): 199 -218.
[7]吴新宁,牛俊奇,吴获等,新型稀士杂多化合物对乙型肝炎病毒复制的抑制作用.吉林 大学学报,2007,33(2):223-226.
[8]王宁婷,韩智慧,韩春亮,杂多化合物在药物化学上的应用研究进展.河南教育学院学 报,2004,13(4):50-53.
[9] Masahiro Sadakane, Eberhard Steckhan, Electrochemical properties of polyoxometalates aselectrocatalysts. Chem. Rev., 1998, 98(1): 219- 238.
[10] Toshihiro Yamase, Photo- and electrochromism of polyoxometalates and relatedmaterials. Chem. Rev., 1998, 98(1): 307-326.
[11] Jeffrey T. Rhule, Craig L. Hill, Deborah A. Judd, Raymond F. Schinazi, Polyoxometalates inmedicine. Chem. Rev., 1998, 98(1): 327-358.
[12] Dimitris E. Katsoulis, A survey of applications of Polyoxometalates. Chem. Rev., 1998, 98(1): 359-388.
[13]a)王恩波,赵世良,杂多酸型催化剂,石油化工,1985,14(10):615-625.
b)王恩波,梁虹,1:12系列钼钨磷混配型杂多酸(盐)的合成及性质研究.应用化学,1992, 9(1):56-60.
[14]余新武,刘术伙,王恩波,三取代过渡金属钨镓杂多配合物的磁性及导电性能研究.化 学学报,1996,54(9):864-868.
[15]王恩波,周云山,杂多蓝型电荷转移配合物(C_8H_(12)N_2)_5H_7PMo_(12)O_(40)的合成、表征与非线??性光学性质研究.东北师大学报,1996,3:41-45.
[16] Wang E. B.; Zhou Y. S. Trans. Met. Chem., 1996, 21: 447.
[17] Louis C. W. B., Diana C. G. Present General Status of Understanding of HeteroployElectrolytes and A Tracing of Some Major Highlights in The History of Their Eucidation.Chem. Rev, 1998, 98(1): 30-49.
[18]王恩波,胡长文,许林,多酸化学导论.北京化学工业出版社,1998.
[19] Miolati A., J. Prakt.Chem., 1908,77: 439.
[20] Rosenheim A, Bilecki R. Ber. 1913, 4: 543.
[21] Pauling L., The molecular structure of the tungstosilicates and related compounds. J. Am.Chem. Soc, 1929, 51(3): 2868-2880.
[22] Souchay P., Massart R., Etude de la reduction de I'acide silico- molybdique. Compt. Rend., 1961,253: 1699-1701.
[23]瞿伦玉,陈亚光,彭军等,a-K_3H_4[SiW_9Al_3(H_2O)_3O_(37)]·7H_2O的晶体结构.高等学校化学学 报,1991,12(8):1009-1011.
[24]瞿伦玉,毕丽华,陈亚光等,β-九-钨镓杂多配合物异构体的合成方法与性质研究.高等 学校化学学报,1992,13(12):1494-1497.
[25]瞿伦玉,牛增元,刘景福等,镧系元素钨硅杂多配合物异构体的合成与表征.高等学校 化学学报,1991,12(11):1434-1436.
[26] Fournier M, Massart R. C. R. Acad. Sci., Ser. C, 1974, 270: 875.
[27]瞿伦玉,龚剑,陈彪,Dawson化合物的多酸化学,化学通报,1995,6:26-29.
[28] Malik S. A, Weakley T. J. R., Heterpoly anions containing two different heteroatoms: Part IIAnions related to 18-Tungstodiphosphate, J. Chem. Soc, 1968, A: 2647.
[29] Peacock R. D., Weakley T. J. R., Protonation sites in a heteropolyvanadate of phosphors:X-ray crystal structure of (Me_3NH)_4NH_4[H_4PV_(14)O_(42)], J. Chem. Soc, 1971, A: 1836.
[30] Waugh J. L. T., Shoemaker D. P., Pauling L. On the structure of the heteroploy anion inammonium 9-Molybdomanganate, (NH_4)_6MnMo_9O_(32)·8H_2O. Acta. Crystallogr., 1954, 7:438-441.
[31]#12
[32] Klemperer, W. G; Wall, C. G. Polyoxoanion chemistry moves toward the future: From solidsand solutions to surfaces. Chem. Rev., 1986, 98: 297-306.
[33] Aoshima A., Yamamatsu S.,Yamaguchi T., Selective Hydration of Isobutene in Mixed Butenes By Using Concentrated Aqueous Solutions of Heteropoly Acids as Catalysts. Nippon Kagaku Kaishi, 1990, (3): 233.
[34]胡长文,高丽娟,王恩波.杂多化合物的酸催化特性及其在有机合成反应中的应用.化 学研究与应用,1995,7(4):341-350.
[35]许林,胡长文,王恩波.杂多酸型催化剂的研究进展.石油化工,1997,26(9):632-638.
[36] Okuhara T., Nishimura T., Watanable H., et al. Insoluble heteropoly compounds as highly active catalysts for liquid-phase reactions. J. Mol. Catal., 1992, 74: 247-256.
[37] Okuhara T., Nishimura T., Ohashi K., et al. A Pronounced Catalytic Activity of an Acidic Cesium Salt of 12-Tungstophosporic Acid for Ester Decomposition in solid-liquid system, Chem. Lett., 1990, 1201-1202.
[38]胡长文,王恩波等,12-钨磷酸对液-固相酯分解及烷基化反应的催化特性.分子催化, 1994,8(5):359-364.
[39]郭军,矫庆泽,沈剑平等,杂多阴离子柱撑水滑石的合成、热稳定性、酸碱性研究.化 学学报,1996,54:357-362.
[40]胡长文,刘彦勇,贺庆林等,新型层柱催化剂ZnAl-XW_(11)Z的酯催化活性.催化学报, 1996,17(3):237-240.
[41]张继余,余新武,张淑云等,新型层柱微孔材料-GaW_Z_(23)柱撑ZnAl阴离子粘士的合成 表征及催化活性.催化学报,1995,16(5):349-350.
[42] Schwegler M. A., Bekkum H., Heteropolyacids as catalysts for the production of phthalate diesters.Appl. Catal., 1991,74: 191-204.
[43]金振兴,张庆勋,刘连利等,固载杂多酸催化剂PW_(12)/SiO_2复相催化酯化合成邻苯二甲 酸二异辛酯.精细化工,1996,13:34-36.
[44] Nakamura O., High-Conductivities Solid Proton Conductors: Dodeca Molybdo- phosphoricAcid and Dodecatungstophosphoric Acid Crystals. Chem. Lett., 1979, 85(1): 17-18.
[45] Pope M.T., Heteropoly and Isopoly Oxometalates, New York: Springer-Verlag, 1983.
[46]Kozhevnikov I. V., Matveen K. I., Homogeneous catalysts based on heteropoly acids (review),Appl. Catal, 1983, 5: 135-150.
[47] Kozhevnikov I. V., Catal. Rev. Sci. Eng., 1995, 37:311.
[48] (a) Misono M., Heterogeneous Catalysis by Heteropoly Compounds of Molybdenum and Tungsten. Catal. Rev. Sci. Eng., 1987, 2: 269.
(b) Misono M., Nojiri N., Recent Progress in Catalytic Technology in Japan. Appl. Catal., 1990,64(1): 1-30.
(c) Nojiri N., Misono M. Recent Progress in Catalytic Technology in Japan-A Supplement. Appl. Catal., 1993, 93(2): 103-122.
[49] (a) Okuhara T., Mizuno N., Misono M. Adv. Catal, 1996, 41:113.
(b) Okuhara T., et al. Gengernal, Catalysis by heteropoly compounds-recent developments, Appl. Catal. A, 2001, 222: 63-77.
(c) Corma A. Inorganic Solid Acids and Their Use in Acid-Catalyzed Hydrocabon Reactions. Chem Rev., 1995, 95: 559-614.
(d) Okuhara T., Water-Tolerant Solid Acid Catalysts, Chem. Rev., 2002, 102(10): 3641-3666.
(e) Maksimov G. M. Russ. Chem. Rev, 1995,64: 445.
(f) Sano K., Uchida H. Wakabayashi S. Catal. Surv. Jpn., 1999, 3: 55.
[50] Cavani F., Heteropolycompound-based catalysts: A blend of acid and oxidizing properties,Catal. Today, 1998, 41: 73-86.
[51] Hill C. L., Prosser-McCartha C. M., Homogeneous catalysis by transition metal oxygen anionclusters. Coord. Chem. Rev., 1995, 143: 407-455.
[52]胡长文,甄慧,许林,王恩波.分子科学学报,1997,13(1):45.
[53]胡长文,许林,王恩波.杂多金属氧酸盐的磁性.科学通报,1998,43(12):1234-1241.
[54]许林,王恩波,胡长文.多金属氧酸盐作为构筑块白组装合成新型功能性分子材料.无 机化学学报,2000,16(2):218-228.
[55] Hu C. W., Wang Y. H., et al. Chem. J. Internet., 2001, 3(6): 22.
[56]姚凤仪,郭德威,桂明德,无机化学丛书(第五卷:氧、硫、硒分族),科学出版社,第一 版.1990.
[57]巨正花,兰州大学硕士论文,2004.
[58] Dongrong Xiao, Yangguang Li, Enbo Wang, Shutao Wang, Yu Huo, Gejihu De, Changwen Hu. Two Novel Vanadium Tellurites Covalenty Bonded with Metal-Organic Complex Moieties: M(phen)V_2TeO_8(M = Cu, Ni). Inorg. Chem. 2003, 42: 7652-7657.
[59] J. D. H. Donnay, J. Melon, Haiiv-Bravais lattice and other crystallographic data for sodium??molybdotellurate. Am. Mineral., 1933, 18: 225.
[60] J. D. H. Donnay, J. Melon. Ammonium and potassium molybdotellurate,twohomeomorphous orthorhomobic substances. Proc. Natl. Acad. Sci. 1934,20: 327.
[61] J. D. H. Donnay, J. Melon. Crystallography of lithium molybdotellurate. Am. Mineral. 1936,21: 125.
[62] S. R. Wood, Arthur Carlson. Preparation and identification of three alkali molybdotellurates.J.Am.Chem.Soc. 1939,61: 1810.
[63] H. T. Evans. Jr.. Am. Min., 1947, 82: 687.
[64] H. T. Evans. Jr.. J. Chem. Soc.,Chem.Commun. 1948, 10(2): 191.
[65] I. P. Alimarin, Z. F. Kamerzan, F. D. Sudakov. Molybdenum heteropoly compounds of sometetravalent elements. Omagiu Raluca Ripan.1966, 45.
[66] Evans H. T., Gatehouse B. M. J.Chem.Soc. Dalton Trans., 1975, 505.
[67] H. T. Evans, The Molecular Structure of the Hexamolybdtellurate Ion in the CrystallComplex with Yelluric Acid, (NH4)_6[TeMo_6O_(24)]·Te(OH)_6·7H_2O. Acta. Cryst. 1974, B30:2095-2100.
[68] Ganelina E. Sh., Nikitina T. K., Role of vanadium in the formation of binary and mixedheteropoly tellurium compounds. Issled. Svoistv I Primenie Geteropolikislot v katalize. 1978,88.
[69] J. Sloclynskt, Telluromolybdates of Transiton Metals. Z. Anorg. Allg. Chem. 1978, 438:295-304.
[70] L. V. Berkach, T. E. Kamerzan, Chromatographic study of the behavior of aqueous solutionsof compounds of selenurm(Ⅳ) and tellurium (Ⅳ). Zh. Neorg. Khim. 1981, 26(9): 2506.
[71] Hikaru Ichida, Atsushi Yagasaki. Synthesis and structure of a novel polymolymolybdatewhich contains five-coordinated molybdenum(Ⅵ). J. Chem. Soc., Chem. Commun. 1991, 1:27-28.
[72] Christian Robl, Mona Frost, The Novel Heteropolyoxo-metallate Anion [Te_6Mo_(12)O_(60)]~(12-)in (NH_4)_(12)[Te_6Mo_(12)O_(60)·8H_2O]. J. Chem. Soc.Chem. Commun. 1992, 248-250.
[73] Grigorev. M. S., Struchkov. Yu. T., Fedoseev. A. M., Yusova. A. B., Yanovskii. A. I.,Synthesis, X-ray structural and luminescence studies of the complexes of some rare earthelements with molybdoiodate or molybdotellurate ions. Zh. Neorg. Khim. 1992, 37(11): 2507.
[74] Christian Robl, Mona Frost, Cesium molybdotellurate telluric acid hydrate Cs_6[TeMo_6O_(24)]·2Te(OH)_6·4H_2O-a telluric acid-rich inclusion compound. Z Anorg. Allg. Chem. 1993,619(9): 1624-1628.
[75] Christian Robl, Mona Frost, Proton-acceptor proper ties of molybdotellurate [TeMo_6O_(24)]~(6-) in Na_4(NH_4)_2[TeMo_6O_(24)]·16H_2O. Z Anorg. Allg. Chem. 1993, 619(6): 1132.
[76]李祖碧,徐其享,碲钼杂多酸-耐而蓝显色反应的研究,化学通报,1993,3:44.
[77] Christan Robl, Mona Frost, Water-rich Molybdotellurates Preparation and Crystal Structure of Li_6[TeMo_6O_(24)]·18H_2O and Li_6[TeMo_6O_(24)]·Te(OH)_6·18H_2O, Z Anorg. Allg. Chem., 1993, 619:1137-1146.
[78] Akira Saito Systematic of Some Properties of Hexamolybdotellurate(FF6) Salt Hydrates with di- and trivalent metals, M_X[TeMo_6O_(24)]·nH_2O. Inorg. Chim. Acta. 1994, 217: 93-99.
[79] H. T. Evans Jr., The Crystal Structure of Ammonium and Possium Molybdotellurates. J. Am. Chem. Soc, 1948, 70(3): 1291-1292.
[80] Hayashi, Hiromu, Telluromolybdates-structureand catalysis. Hyomen. 1995,33(12): 763.
[81] Botto I. L., Cabello C. L., Thomas H. J., (NH_4)_6TeMo_6O_(24)·7H_2O Anderson phase as precursorof the TeMo_5O_(16) catalytic phase: thermal and spectroscopic studies. Mater. Phys. Chem. 1997,47(1): 37.
[82] Hayashi, Hiromu. Active species in TeO_2-MoO_3 and their preparations. Shokubai Gakkai.1997, 39(1): 32.
[83] Lorenzo-Luis P. A., Martin-Zarza P., Puche R., Jimenez-Jimenez J., Rodriguez-Castellon E.,Ruiz-Perez C, Gonzalez-Platas J., Solans X., Synthesis and characterization of themolybdotellutates: [M(H_2O)_6]_3[TeMo_60_(24)]: M = Ni(Ⅱ) and Co(Ⅱ). Eur. J. Solid State Inorg.Chem. 1997, 34 (11): 1259-1262.
[84] Lorenzo-Luis P. A., Martin-Zarza P., Sanchez A., Ruiz-Perez C, Hernandez-Molina M.,Solans X.,Gili P., Anderson-Evans type molybdotellurates with diazolium cations:preparation, structure and properties of (H_2imz)_6[TeMo_6O_(24)]·4H_2O and(H_2pyz)_6[TeMo_6O_(24)]·Te(OH)_6. Inorg. Chim. Acta. 1998,277: 139-150.
[85] Sadayuki Himeno, Kenichi Sano, Hirotaka Niiya, Yumiko Yamazaki, Tadaharu Ueda,Toshitaka Hori, Formation and conversion of yellow heteropoly complexes in a??Mo(Ⅵ)-Se(Ⅳ),Te(Ⅵ) system. Inorg. Chim. Acta. 1998,281: 214.
[86] Vidyavathy Balraj, K. Vidyasagar, Low-Temperature systheses and Characterization of NovelLayered Tellurites, A_2Mo_3TeO_(12)(A = NH_4, Cs), and "Zero-Dimensional" Tellurites,A_4Mo_6Te_2O_(24)(A = Rb, K). Inorg. Chem. 1998, 37: 4764-4774.
[87] Gili P., Lorenzo-Luis P. A.; Martin-Zarza P.; Dominguez S., Sanchez A., Arrieta J. M.,Ruiz-Perez C, Heranandez-Molina M., Solans X. Molybdotellurates containing the1-methyl-2-methyl- and 4-methyl imidazolium cations. Trans. Met. Chem. 1999, 24 (2):141-151.
[88] Fedosseev A. M., Grigoriev M. S., Budantseva N. A., Shirokova I. B., Antic-Fidancev E.,Krupa J. C. Crystal Structure and Luminesecence Properties of Europium-doped Iodo- andTelluromolybdate Compounds. Journal of Luminescence. 2000, 87-97: 1065-1068.
[89] Daniel Drewes, Eva Melanie, Bernt Krebs, A series of novel Lanthanide Polyoxometalates:Condensation of Building Blocks Dependent on the Nature of Rare Earth Cations. DaltonTrans., 2004, 2087-291.
[90] Charushnikova I. A., Fedoseev A. M., Yusov A. B., et al. Crystal structure of a newneodymium hexamolybdotellurate, Nd_2[TeMo_6O_24]·19H_2O. Crystallography Reports, 2005,50(2): 185-190.
[91] Gao B., Liu S. X., Xie L. H., Zhang C. D., Sun C. Y., Cheng H. Y. Hydrothermal Assembly of(3,6)-connected Networks with Classical Mineral Structure Constructed from Anderson-typeHeteropolymolybdate and Metal Cations. Journal of Solid State Chemistry. 2006, 179:1680-1688.
[92] Ganelina E. Sh.; Bubnova L. A. Role of Tellurium(Ⅵ) in the formation of heteropoly acids.Zh. Neorg. Khim. 1973,18(8): 2180.
[93] Roy S. K.; Mishra H. C, Solid state studies on polymerization and depolymerization oftungstate ion with tellurium as the heteroatom. J. Indian. Chem. Soc. 1978, 55(2): 188-190.
[94] Schmidt K. J.; Schrobilgen G. J.; Sawyer, J. F. Hexasodium hexatungstotellurate(Ⅵ)22-hydrat. Acta. Crystallogr. 1986, C42(9): 1115-1118.
[95] Gutsul T. D., YurchenKo E. N., Preparation and structure of several selenium(Ⅳ) andtellurium(Ⅳ) heteropoly compounds. Koord. Khim. 1992, 18(9): 944.
[96]李祖碧,曹秋娥,徐其享,碲钨杂多酸-丁基罗丹B超高灵敏显色反应的研究,分析试验
[97] Lorenzo-Luis, P. A.; Gili, P.; Sanchez, A.; Rodriguez-Castellon, E.; Jimenez-Jimenez, J.; Ruiz-Perez, C. Tungstotellurates of the imidazolium and 4-methylimidazolium cations. Trans. Met. Chem. 1999, 24, 686-692.
[98] Ulrich Kortz, Masha G. Savelieff, Bassil S. Bassil, Bineta Keita, Louis Nadjo. Synthesis and Characterization of Iron(Ⅲ)-Substituted, Dimeric Polyoxotungstates,[Fe_4(H_2O)_(10)(β-XW_9O_(33))_2]~(n-) (n = 6, X = As~Ⅲ, Sb~Ⅲ; n = 4, X = Se~Ⅳ, Te~Ⅳ). Inorg. Chem. 2002, 41:783-789.
[99] Shaofen Mo, Zhenghua Ju, et al. Anderson-Evans Type Tungstotellurate with Metal-Organic Complex Moieties: Preparation, Structure and Properties of Na_2[Co(C_(12)H_8N_2)_3]_2[TeW_6O_(24)]·25.16H_2O. Synthesis and Reactivity in Inorganic, Metal-Organic and Nano-Metal Chemistry, 2006, 36: 687-692.
[100] Zhihong Xu, Pinxian Xi, Fengjuan Chen, Zhengzhi Zeng. Synthesis and characterization of a novel Anderson-type tungstotellurate decorated by transition metalcomplexes:[Na(H_2O)_3]_2[{Cu(2,2'-bipy)_2}_2(TeW_6O_(24))]·4H_2O Transition Met. Chem. 2008,33: 237-241.
[101] Yuhao Sun, Jingfu Liu, Enbo Wang, Preparation and Properties of some new 6-Heteropoly-Tellurate Compounds of Tungsten and Molybdenum containing Vanadium. Inorg. Chim. Acta. 1986,117(1): 23.
[102] Derkach L. V., Luong Ni., Kamerzan Z. S., Hertzberg Edeltraut, Synthesis and some Properities of the 8-tungsto-4-vanadotelluric acid complex. Zh. Neorg. Khim. 1977, 22(9): 2493.
[103] Ganelina E. Sh., Nikitina, T. K., Krasnopolskaya M. B. Study of the kinetics of the alkaline decomposition of vanadium-containing tellurium(Ⅳ) heteropolytungstates. Zh. Neorg. Khim. 1980,25(6): 1553.
[104] Derkach L. V., Polishchuk S. Ya., Kiosse G. A., Volodina G. F., Study of vanadium-tungstenheteropoly acids of tellurium(Ⅳ). Zh. Neorg. Khim. 1984,29(6): 1473.
[105] Borgoyakov V. A., Gorenkova G. A., Chertykova I. P., Stability of tungstovanadotelluric(Ⅳ) acids toward alkaline solutions. Zh. Neorg. Khim. 1986, 31(3): 668.
[106] Roy S. K., Ghosh B. N., Synthesis and Characterization of mixed heteropoly and penta(tungdto)(vanado)tellurates. Indian J. Chem. Sect. A, 1986, 25A(4): 379.
[107] Derkach L. V., Gogotova G. D., Shafranskii V. N., Arkhipova E. V., IR spectroscopic and derivatographic studies of the dehydration of glassy tungsten-containing selenium (IV) and tellurium (IV) heteropoly acids. Zh. Neorg. Khim. 1987, 32(5): 1086.
[108] Roy S. K., Dey K. C., Electronic spectra of some heteropoly complex anions. J. Indian Chem. Soc. 1992, 69(4): 224.
[109] Jingqi Guan, ShuBo Jing, Shujie Wu, et al. Selective Oxidation of Isobtane Over Mo-V-Te Mixed Oxide Catalysts with Different Tellurium Contents. React. Kinet. Catal.Lett. 2007, 90(1): 27-33.
[110] Shakhova Z. F., Zakharova V. F., Morosanova S. A., Ternary selenium-tellurium-molybdenum complex. Vestn. Most Univ. Khim. 1969, 24(5): 70.
[111] Derkach L. V., Arkhipova E. V., Gogotova G. D. Preparation of heteropoly complexes in the selenium(tellurium) (IV)-tungsten (VI)-silicon (IV) system. Zh. Neorg. Khim. 1988, 33(1):100.
[112] Yurchenko E. N., Gutsul T. D., Kuznetsova L. I., Heteropoly compound M_n [As(Se,Te)_2W_(18)Fe_3(H_2O)_3O_(66)] ·mH_2O and their interaction with nitric oxide. Koord.Khim. 1992, 18(9): 939.
[113] Roy S. K., Sinha P. K., Synthesis and characterization of some new heteropoly oxomolybdates containing two hetero atoms. J. Indian Chem. Soc. 1999, 76(6).
[114] Sinha Pradip K.., Acharya Ashok K., Roy Salil K., Synthesis of some new oxovanadates containing two hetero atoms. J. Indian Chem. Soc. 2000, 77(3): 164.
[115] Andrew J., Gaunt A new Structure Family of Heteropolytungstate Lacunary Compleses with the Uranyl UO~(2+), Cation. Dalton Trans., 2003, 3009-3014.
[1] Zubairi S.A., Ifzal S.M., Malik A., Heteropoly Complexes of Lanthanum with UnsaturatedHeteropolytungstate Ligands, Inorganica Chimica Acta, 1977, 22: 29-30.
[2] Gai, X. Z. et al. Synthesis and Crysthal Structure of Lanthanide HeteropolymolybdateComplex: (NH_4)_(12)H_(10)[Nd_4Mo_(29)O_(104)(H_2O)_(12)]·22H_2O. Chinese Journal of Structure Chemisty,1997, 16(3): 239-246.
[3]秦玉楠,新型稀土含钼杂多化合物(催化剂)的制备和应用.2002,26(5):17-19.
[4]吴新宇,牛俊奇,吴获等.新型稀土杂多化合物对乙型肝炎病毒复制的抑制作用.吉林大学学报(医学版),2007,33(2):223-226.
[5]王丽君,姜虹.杂多化合物抗番茄花叶病毒的研究.北华大学学报(自然科学版),2005, 6(3):221-223.
[6]刘景福,陈亚光,马建方等,穴状稀土杂多化合物的生物活性研究.中国稀土学报,2000, 18(3):282-285.
[7] Peacock R.D., Weakley T. J. R., Heteropolytungstate Complexes of the Lanthanide Elements. Part.l. Preparation and Reactions J.Chem. Soc. 1971, (A): 1836-1839.
[8]龚钰秋,舒瑶燕等,12一钨磷酸钕杂多铬盐的制备和性质,杭州大学学报(自然科学版), 1981,(3):282.
[9]日本化学会编,无机化合物合成手册(第二卷),化学工业出版社,260.
[10] Ratheesh R., Suresh G, Nayar V. LL Infared and Polarized Raman Spectra of M_6[TeMo_6O_(24)]·7H_2O[M = K, NH_4] and (NH_4)_6[TeMo_6O_(24)]·Te(OH)_6·7H_2O Single Crystals, J. Solid State Chem., 1995,118: 341-356.
[11] Allman R., Haase W., A Compound with Short O-H...F Hydrogen Bonds. Inorg. Chem., 1976, 15(4): 804-807.
[12] Blasse G, Hordijk W., The Vibrational Spectrum of Ni_3TeO_6 and Mg_3TeO_6. J. Solid State Chem. 1975, 5(3): 395-397.
[13]中本一雄,无机和配位化合物的红外和拉曼光谱,化学工业出版社,1986.
[14]柳士忠,许林,王恩波,稀土元素1:12系列钨锗杂多配合物的合成及性质研究[J].中 国稀土学报,1994,2(4):366-369.
[15]莫少芬.兰州大学硕士论文,2007.
[16] Flynn C.M., Pope Jr. M. T..Tungstovanadate heteropoly complex: Ⅳvanadium(Ⅳ)complexes. Inorg. Chem., 1973, 12(7): 1626-1634.
[17] Charushnikova I. A., Fedoseev A. M, Yusov A. B., et al. Crystal structure of a newneodymium hexamolybdotellurate, Nd_2TeMo_6O_(24)·19H_2O. Crystallography Reports, 2005,50(2): 185-190.
[18] Evans H. T.; Gatehouse B.M., J. Chem. Soc. Dalton Trans. 1975, 505
[19]王恩波,胡长文,许林,多酸化学导论.化学工业出版社,1998.
[1] Zhengbo Han, Enbo Wang, Wansheng You, et al. Synthesis and crystal structure of a novel compound: [H_3PMo_(12)O_(40)][CO(NH_2)_2]_3·5H_2O. Journal of Molecular Structure. 2001, 595: 7-13.
[2]邓谦,蔡铁军,彭振山等.钼钒砷杂多酸有机铵盐的合成及热稳定性研究.Journal ofMolecular Catalysis (China). 2001, 15(5): 374-378.
[3] Czelusniak I., Szymanska-Buzar T., Kenwright A., Khosravi E., Ring-opening metathesispolymerization of 5,6-bis(chloromethyl)norbornene by tungsten(Ⅱ) and molybdenum(Ⅱ)complexes. J.Catal. 2002, 81(3-4): 157-161.
[4] Sauer P., Frebortl., Molybdenum cofactor-containing oxidoreductase family in plants. Biol.Plant. 2003, 46 (4): 481-490.
[5] Bissessur R., Gallant D., Novel intercalation compound of poly[oligo(ethylene glycol)-oxalate]in molybdenum disulfide.J. Mater. Sci. 2003, 22: 429-431.
[6] Yan Xu, Dunru Zhu, You Song et al. Hydrothermal synthesis and crystal structure of the novelmixed Mo/V metal-oxygen cluster compound[Co(C2N2H8)3]4[Mo2Mol4V16O80(PO4)]·10H2O. Journal of Molecular Sturcture, 2006,782: 165-170.
[7]祁素芳,张国乾,马鹏涛等.Dawson结构杂多化合物(C_5H_6N)_(4.5)H_(1.5)(P_2W_(18)O_(62))·1.5H_2O的 合成及晶体结构.化学研究,2007,18(3):46-49.
[8] Khan M. I., Novel extended solids composed of transition metal oxide cluster. J. Solid StateChem. 2000, 152(1): 105-112.
[9] Liu C. M., Hou Y. L., Gao S., Hydrothermal synthesis and crystal structure of a novel two-dimensional vanadium oxide complex with a 6,14-net sinusoidal ruffling anionic layer: [Ni(phen)_2V_4O_(11)] (phen= 1,10-Phenanthroline). Inorg. Chem. 2002, 41(1): 140-143.
[10] Xu L., Sun Y. Q., Wang E. B., Shen E. H., Liu Z. R., Hu C, Xing Y, Lin Y H., Jia H. Q., A manganese molybdenum phosphate with a tunnel: hydrothermal synthesis, structure and catalytic properties of(NH_3CH_2CH_2NH_3)_(10)(H_3O)_3(H_5O_2)Na_2[MnMo_(12)O_(24)(OH)_6(PO_4)4(PO_3OH)_4][MnMo_(12)O_(24)(OH)??_6(PO_4)_6(PO_3OH)_2]·9H_2O. New J. Chem. 1999,23: 1041-1044.
[11]莫少芬,兰州大学硕士硕士论文,2007.
[12] Stalick J. K., Quicksall C. O., Two heteropoly anions containing organic groups. Crystal and molecular structures of ammonium pentamolybdobis(methylphosphonate) pentahydrate, (NH_4)_4[(CH_3P)_2Mo_5O_(21)]·5H_2O, and sodium tetramethylammonium pentamolybdo-bis(ethylammoniumphosphonate) pentahydrate, Na[N(CH_3)_4][(NH_3C_2H_4P)_2Mo_5O_(21)]·5H_2O. Inorg. Chem. 1976, 15 (7): 1577-1584.
[13]Aranzabe A., Wery A. S. J., Gutierrez-Zorrilla J. M., Matinez-Ripoll M., Roman P., Organoammoniumonium diphossphopentamolybdates(Ⅵ): influence of organic cations and anion protonation on crystal packing and geometrical features of polyanion. Inorg. Chim. Acta, 1997, 255: 35-45.
[14]陈英芳,红外和喇曼技术,纺织工业初版社,1988.
[15]王恩波,胡长文,许林,多酸化学导论,北京化学工业出版社,1998.
[16] Evans H. T., Gatehouse B. M., Crystal Structure of the Heptamolybdate(Ⅵ) (Paramolybdate) Ion [Mo_7O_(24)]~(6-), in the Ammonium and Potassium Tetrahydrate. J. Chem. Soc. Dalton. Trans., 1975,2:505-514.
[17] Martin C, Lamonier C, Fournier M., Mentre Q., Harle V., Guillaume D., Payen E., Preparation and Characterization of 6-Molybdocobaltate and 6-Molybdoaluminate Cobalt Salt, Evidence of a New Heteropolymolybdate Structure. Inorg. Chem., 2004,43: 4636-4644.
[18]陈砚美,兰州大学硕士论文,2006.
[19]中本一雄,无机和配位化合物的红外和拉曼光谱,化学工业出版社,1986.
[1] Nebebech Belai, Masahiro Sadakane, Michael T. Pope, Formation of Unsymmetrical Polyoxotungstates Via Transfer of Polyoxometalate Building Blocks. NMR Evidence Supports The Kinetic Stability of The Pentatungstate Anion, [W_5O_(18)]~(6-), In Aqueous Solution[J]. J Am. Chem. Soc, 2001, 123: 2087-2088.
[2] Tosho Okuhara, Hiromu Watanabe, Tom Nishimura, et al. Microstructure of CesiumHydrogen Salts of 12-Tungstophosphoric Acid Relevant to Novel Acid Catalysis[J]. J. Chem. Mater., 2000, 1 2: 2230-2238.
[3] Chen C C, Lei P X, Ji H W, Photocatalysis By Titanium Dioxide And Polyoxomeyalate / TiO2 Cocatalysts: Intermediates And Mechanistic Study [J]. Environ Sci. Technol, 2004, 38: 329-337.
[4]张进,唐英,罗茜,钼钒磷杂多酸的合成及催化性能研究[J].无机化学学报,2004,20: 935-939.
[5] Andrew J Gaunt, Lain May, Madeleine Helliwell, Structure And SpectroscopicCharacterization of A NeDtuyl Polyoxometalate Complex[J]. Am. Chem. Soc, 2002, 124:13350-13351.
[6] Rene Massart, Rikabd Contant, Jean-Marc Fruchart.~(31)P NMR Studies On Molybdic AndTungstic Heteropolyanions. Correlation Between Structure And Chemical Shift[J]. Inorg.Chem, 1977, 16:2916-2918.
[7] Zhang C, Robertha C Howell, Kymora B Scotland, et al. Aqueous Speciation Studies ofEuropium(Ⅲ) Phosphotungstatel [J]. Inorg. Chem., 2004, 43: 7691-7701.
[8]黄金萍,骆红山,李益康等,1:9磷钨杂多化合物的合成及结构表征[J].上海师范大学学 报(自然科学版),2005,34(3),50-54.
[9]王恩波,胡长文,许林,多酸化学导论,北京化学工业出版社,1998.
[10] Allman R., Haase W., A Compound with Short O-H...F Hydrogen Bonds. Inorg. Chem., 1976,15(4): 804-807.
[11] Blasse G, Hordijk W., The Vibrational Spectrum of Ni_3TeO_6 and Mg_3TeO_6. J. Solid State Chem. 1975, 5(3): 395-397.
[12]中本一雄,无机和配位化合物的红外和拉曼光谱,化学工业出版社,1986.
[13]梁映秋,刘举正,刘国发等,Raman And Infrared Spectra of Rare Earth Acetylacetonate. 分子科学学报,1981,1:101-110
[14] Jingyang Niu, Ziliang Wang, Jingping Wang. Hydrothermal synthesis and structure characterization of a Keggin Tungstocobaltate [Co(2,2'-bipy)_3]_2H_2[CoW_(12)O_(40)]·9.5H_2O. Polyhedron, 2004,23: 773-777.
[15]苏华能,兰州大学硕士论文,2005.
[16] Flynn C. M., Pope Jr. M. T., Tungstovanadate heteropoly: Ⅳ vanadium(Ⅳ)complexes. Inorg. Chem., 1973, 12(7): 1626-1634.
[17]望琼生,王世铭,张晓勤.Waugh型锰钼杂多酸层柱化合物的合成及性能.福建师范大 学学报(自然科学版).2004,20(2):71-73.
[18]王世铭,蔡秀真,黄金风等,K_(0.5)(NH_4)_(5.5)[MnMo_9O_(32)]·6H_2O的合成及其晶体结构[J].福 建师范大学学报(自然科学版),1997,13(4):45-49.
[19]莫少芬,兰州大学硕士论文,2007.
[2]胥勃,吴越,杂多酸(盐)——一种多用途的催化剂,化学通报,1985,4:34.
[3]Pope M.T.,王恩波等译,杂多和同多金属氧酸盐.长春:吉林大学出版社,1991.
[4] Ivan V. Kozhevnikov, Catalysis by heteropoly acids and multicomponent polyoxometalates in liquid-phase reactions. Chem. Rev., 1998, 98(1): 171-198.
[5]袁华,王立霞,谢德银等,杂多酸催化剂.沧州师范专科学报,2007,23(2):40-41.
[6] Noritaka Mizuno, Makoto Misono, Heterogeneous catalysis. Chem. Rev., 1998, 98(1): 199 -218.
[7]吴新宁,牛俊奇,吴获等,新型稀士杂多化合物对乙型肝炎病毒复制的抑制作用.吉林 大学学报,2007,33(2):223-226.
[8]王宁婷,韩智慧,韩春亮,杂多化合物在药物化学上的应用研究进展.河南教育学院学 报,2004,13(4):50-53.
[9] Masahiro Sadakane, Eberhard Steckhan, Electrochemical properties of polyoxometalates aselectrocatalysts. Chem. Rev., 1998, 98(1): 219- 238.
[10] Toshihiro Yamase, Photo- and electrochromism of polyoxometalates and relatedmaterials. Chem. Rev., 1998, 98(1): 307-326.
[11] Jeffrey T. Rhule, Craig L. Hill, Deborah A. Judd, Raymond F. Schinazi, Polyoxometalates inmedicine. Chem. Rev., 1998, 98(1): 327-358.
[12] Dimitris E. Katsoulis, A survey of applications of Polyoxometalates. Chem. Rev., 1998, 98(1): 359-388.
[13]a)王恩波,赵世良,杂多酸型催化剂,石油化工,1985,14(10):615-625.
b)王恩波,梁虹,1:12系列钼钨磷混配型杂多酸(盐)的合成及性质研究.应用化学,1992, 9(1):56-60.
[14]余新武,刘术伙,王恩波,三取代过渡金属钨镓杂多配合物的磁性及导电性能研究.化 学学报,1996,54(9):864-868.
[15]王恩波,周云山,杂多蓝型电荷转移配合物(C_8H_(12)N_2)_5H_7PMo_(12)O_(40)的合成、表征与非线??性光学性质研究.东北师大学报,1996,3:41-45.
[16] Wang E. B.; Zhou Y. S. Trans. Met. Chem., 1996, 21: 447.
[17] Louis C. W. B., Diana C. G. Present General Status of Understanding of HeteroployElectrolytes and A Tracing of Some Major Highlights in The History of Their Eucidation.Chem. Rev, 1998, 98(1): 30-49.
[18]王恩波,胡长文,许林,多酸化学导论.北京化学工业出版社,1998.
[19] Miolati A., J. Prakt.Chem., 1908,77: 439.
[20] Rosenheim A, Bilecki R. Ber. 1913, 4: 543.
[21] Pauling L., The molecular structure of the tungstosilicates and related compounds. J. Am.Chem. Soc, 1929, 51(3): 2868-2880.
[22] Souchay P., Massart R., Etude de la reduction de I'acide silico- molybdique. Compt. Rend., 1961,253: 1699-1701.
[23]瞿伦玉,陈亚光,彭军等,a-K_3H_4[SiW_9Al_3(H_2O)_3O_(37)]·7H_2O的晶体结构.高等学校化学学 报,1991,12(8):1009-1011.
[24]瞿伦玉,毕丽华,陈亚光等,β-九-钨镓杂多配合物异构体的合成方法与性质研究.高等 学校化学学报,1992,13(12):1494-1497.
[25]瞿伦玉,牛增元,刘景福等,镧系元素钨硅杂多配合物异构体的合成与表征.高等学校 化学学报,1991,12(11):1434-1436.
[26] Fournier M, Massart R. C. R. Acad. Sci., Ser. C, 1974, 270: 875.
[27]瞿伦玉,龚剑,陈彪,Dawson化合物的多酸化学,化学通报,1995,6:26-29.
[28] Malik S. A, Weakley T. J. R., Heterpoly anions containing two different heteroatoms: Part IIAnions related to 18-Tungstodiphosphate, J. Chem. Soc, 1968, A: 2647.
[29] Peacock R. D., Weakley T. J. R., Protonation sites in a heteropolyvanadate of phosphors:X-ray crystal structure of (Me_3NH)_4NH_4[H_4PV_(14)O_(42)], J. Chem. Soc, 1971, A: 1836.
[30] Waugh J. L. T., Shoemaker D. P., Pauling L. On the structure of the heteroploy anion inammonium 9-Molybdomanganate, (NH_4)_6MnMo_9O_(32)·8H_2O. Acta. Crystallogr., 1954, 7:438-441.
[31]#12
[32] Klemperer, W. G; Wall, C. G. Polyoxoanion chemistry moves toward the future: From solidsand solutions to surfaces. Chem. Rev., 1986, 98: 297-306.
[33] Aoshima A., Yamamatsu S.,Yamaguchi T., Selective Hydration of Isobutene in Mixed Butenes By Using Concentrated Aqueous Solutions of Heteropoly Acids as Catalysts. Nippon Kagaku Kaishi, 1990, (3): 233.
[34]胡长文,高丽娟,王恩波.杂多化合物的酸催化特性及其在有机合成反应中的应用.化 学研究与应用,1995,7(4):341-350.
[35]许林,胡长文,王恩波.杂多酸型催化剂的研究进展.石油化工,1997,26(9):632-638.
[36] Okuhara T., Nishimura T., Watanable H., et al. Insoluble heteropoly compounds as highly active catalysts for liquid-phase reactions. J. Mol. Catal., 1992, 74: 247-256.
[37] Okuhara T., Nishimura T., Ohashi K., et al. A Pronounced Catalytic Activity of an Acidic Cesium Salt of 12-Tungstophosporic Acid for Ester Decomposition in solid-liquid system, Chem. Lett., 1990, 1201-1202.
[38]胡长文,王恩波等,12-钨磷酸对液-固相酯分解及烷基化反应的催化特性.分子催化, 1994,8(5):359-364.
[39]郭军,矫庆泽,沈剑平等,杂多阴离子柱撑水滑石的合成、热稳定性、酸碱性研究.化 学学报,1996,54:357-362.
[40]胡长文,刘彦勇,贺庆林等,新型层柱催化剂ZnAl-XW_(11)Z的酯催化活性.催化学报, 1996,17(3):237-240.
[41]张继余,余新武,张淑云等,新型层柱微孔材料-GaW_Z_(23)柱撑ZnAl阴离子粘士的合成 表征及催化活性.催化学报,1995,16(5):349-350.
[42] Schwegler M. A., Bekkum H., Heteropolyacids as catalysts for the production of phthalate diesters.Appl. Catal., 1991,74: 191-204.
[43]金振兴,张庆勋,刘连利等,固载杂多酸催化剂PW_(12)/SiO_2复相催化酯化合成邻苯二甲 酸二异辛酯.精细化工,1996,13:34-36.
[44] Nakamura O., High-Conductivities Solid Proton Conductors: Dodeca Molybdo- phosphoricAcid and Dodecatungstophosphoric Acid Crystals. Chem. Lett., 1979, 85(1): 17-18.
[45] Pope M.T., Heteropoly and Isopoly Oxometalates, New York: Springer-Verlag, 1983.
[46]Kozhevnikov I. V., Matveen K. I., Homogeneous catalysts based on heteropoly acids (review),Appl. Catal, 1983, 5: 135-150.
[47] Kozhevnikov I. V., Catal. Rev. Sci. Eng., 1995, 37:311.
[48] (a) Misono M., Heterogeneous Catalysis by Heteropoly Compounds of Molybdenum and Tungsten. Catal. Rev. Sci. Eng., 1987, 2: 269.
(b) Misono M., Nojiri N., Recent Progress in Catalytic Technology in Japan. Appl. Catal., 1990,64(1): 1-30.
(c) Nojiri N., Misono M. Recent Progress in Catalytic Technology in Japan-A Supplement. Appl. Catal., 1993, 93(2): 103-122.
[49] (a) Okuhara T., Mizuno N., Misono M. Adv. Catal, 1996, 41:113.
(b) Okuhara T., et al. Gengernal, Catalysis by heteropoly compounds-recent developments, Appl. Catal. A, 2001, 222: 63-77.
(c) Corma A. Inorganic Solid Acids and Their Use in Acid-Catalyzed Hydrocabon Reactions. Chem Rev., 1995, 95: 559-614.
(d) Okuhara T., Water-Tolerant Solid Acid Catalysts, Chem. Rev., 2002, 102(10): 3641-3666.
(e) Maksimov G. M. Russ. Chem. Rev, 1995,64: 445.
(f) Sano K., Uchida H. Wakabayashi S. Catal. Surv. Jpn., 1999, 3: 55.
[50] Cavani F., Heteropolycompound-based catalysts: A blend of acid and oxidizing properties,Catal. Today, 1998, 41: 73-86.
[51] Hill C. L., Prosser-McCartha C. M., Homogeneous catalysis by transition metal oxygen anionclusters. Coord. Chem. Rev., 1995, 143: 407-455.
[52]胡长文,甄慧,许林,王恩波.分子科学学报,1997,13(1):45.
[53]胡长文,许林,王恩波.杂多金属氧酸盐的磁性.科学通报,1998,43(12):1234-1241.
[54]许林,王恩波,胡长文.多金属氧酸盐作为构筑块白组装合成新型功能性分子材料.无 机化学学报,2000,16(2):218-228.
[55] Hu C. W., Wang Y. H., et al. Chem. J. Internet., 2001, 3(6): 22.
[56]姚凤仪,郭德威,桂明德,无机化学丛书(第五卷:氧、硫、硒分族),科学出版社,第一 版.1990.
[57]巨正花,兰州大学硕士论文,2004.
[58] Dongrong Xiao, Yangguang Li, Enbo Wang, Shutao Wang, Yu Huo, Gejihu De, Changwen Hu. Two Novel Vanadium Tellurites Covalenty Bonded with Metal-Organic Complex Moieties: M(phen)V_2TeO_8(M = Cu, Ni). Inorg. Chem. 2003, 42: 7652-7657.
[59] J. D. H. Donnay, J. Melon, Haiiv-Bravais lattice and other crystallographic data for sodium??molybdotellurate. Am. Mineral., 1933, 18: 225.
[60] J. D. H. Donnay, J. Melon. Ammonium and potassium molybdotellurate,twohomeomorphous orthorhomobic substances. Proc. Natl. Acad. Sci. 1934,20: 327.
[61] J. D. H. Donnay, J. Melon. Crystallography of lithium molybdotellurate. Am. Mineral. 1936,21: 125.
[62] S. R. Wood, Arthur Carlson. Preparation and identification of three alkali molybdotellurates.J.Am.Chem.Soc. 1939,61: 1810.
[63] H. T. Evans. Jr.. Am. Min., 1947, 82: 687.
[64] H. T. Evans. Jr.. J. Chem. Soc.,Chem.Commun. 1948, 10(2): 191.
[65] I. P. Alimarin, Z. F. Kamerzan, F. D. Sudakov. Molybdenum heteropoly compounds of sometetravalent elements. Omagiu Raluca Ripan.1966, 45.
[66] Evans H. T., Gatehouse B. M. J.Chem.Soc. Dalton Trans., 1975, 505.
[67] H. T. Evans, The Molecular Structure of the Hexamolybdtellurate Ion in the CrystallComplex with Yelluric Acid, (NH4)_6[TeMo_6O_(24)]·Te(OH)_6·7H_2O. Acta. Cryst. 1974, B30:2095-2100.
[68] Ganelina E. Sh., Nikitina T. K., Role of vanadium in the formation of binary and mixedheteropoly tellurium compounds. Issled. Svoistv I Primenie Geteropolikislot v katalize. 1978,88.
[69] J. Sloclynskt, Telluromolybdates of Transiton Metals. Z. Anorg. Allg. Chem. 1978, 438:295-304.
[70] L. V. Berkach, T. E. Kamerzan, Chromatographic study of the behavior of aqueous solutionsof compounds of selenurm(Ⅳ) and tellurium (Ⅳ). Zh. Neorg. Khim. 1981, 26(9): 2506.
[71] Hikaru Ichida, Atsushi Yagasaki. Synthesis and structure of a novel polymolymolybdatewhich contains five-coordinated molybdenum(Ⅵ). J. Chem. Soc., Chem. Commun. 1991, 1:27-28.
[72] Christian Robl, Mona Frost, The Novel Heteropolyoxo-metallate Anion [Te_6Mo_(12)O_(60)]~(12-)in (NH_4)_(12)[Te_6Mo_(12)O_(60)·8H_2O]. J. Chem. Soc.Chem. Commun. 1992, 248-250.
[73] Grigorev. M. S., Struchkov. Yu. T., Fedoseev. A. M., Yusova. A. B., Yanovskii. A. I.,Synthesis, X-ray structural and luminescence studies of the complexes of some rare earthelements with molybdoiodate or molybdotellurate ions. Zh. Neorg. Khim. 1992, 37(11): 2507.
[74] Christian Robl, Mona Frost, Cesium molybdotellurate telluric acid hydrate Cs_6[TeMo_6O_(24)]·2Te(OH)_6·4H_2O-a telluric acid-rich inclusion compound. Z Anorg. Allg. Chem. 1993,619(9): 1624-1628.
[75] Christian Robl, Mona Frost, Proton-acceptor proper ties of molybdotellurate [TeMo_6O_(24)]~(6-) in Na_4(NH_4)_2[TeMo_6O_(24)]·16H_2O. Z Anorg. Allg. Chem. 1993, 619(6): 1132.
[76]李祖碧,徐其享,碲钼杂多酸-耐而蓝显色反应的研究,化学通报,1993,3:44.
[77] Christan Robl, Mona Frost, Water-rich Molybdotellurates Preparation and Crystal Structure of Li_6[TeMo_6O_(24)]·18H_2O and Li_6[TeMo_6O_(24)]·Te(OH)_6·18H_2O, Z Anorg. Allg. Chem., 1993, 619:1137-1146.
[78] Akira Saito Systematic of Some Properties of Hexamolybdotellurate(FF6) Salt Hydrates with di- and trivalent metals, M_X[TeMo_6O_(24)]·nH_2O. Inorg. Chim. Acta. 1994, 217: 93-99.
[79] H. T. Evans Jr., The Crystal Structure of Ammonium and Possium Molybdotellurates. J. Am. Chem. Soc, 1948, 70(3): 1291-1292.
[80] Hayashi, Hiromu, Telluromolybdates-structureand catalysis. Hyomen. 1995,33(12): 763.
[81] Botto I. L., Cabello C. L., Thomas H. J., (NH_4)_6TeMo_6O_(24)·7H_2O Anderson phase as precursorof the TeMo_5O_(16) catalytic phase: thermal and spectroscopic studies. Mater. Phys. Chem. 1997,47(1): 37.
[82] Hayashi, Hiromu. Active species in TeO_2-MoO_3 and their preparations. Shokubai Gakkai.1997, 39(1): 32.
[83] Lorenzo-Luis P. A., Martin-Zarza P., Puche R., Jimenez-Jimenez J., Rodriguez-Castellon E.,Ruiz-Perez C, Gonzalez-Platas J., Solans X., Synthesis and characterization of themolybdotellutates: [M(H_2O)_6]_3[TeMo_60_(24)]: M = Ni(Ⅱ) and Co(Ⅱ). Eur. J. Solid State Inorg.Chem. 1997, 34 (11): 1259-1262.
[84] Lorenzo-Luis P. A., Martin-Zarza P., Sanchez A., Ruiz-Perez C, Hernandez-Molina M.,Solans X.,Gili P., Anderson-Evans type molybdotellurates with diazolium cations:preparation, structure and properties of (H_2imz)_6[TeMo_6O_(24)]·4H_2O and(H_2pyz)_6[TeMo_6O_(24)]·Te(OH)_6. Inorg. Chim. Acta. 1998,277: 139-150.
[85] Sadayuki Himeno, Kenichi Sano, Hirotaka Niiya, Yumiko Yamazaki, Tadaharu Ueda,Toshitaka Hori, Formation and conversion of yellow heteropoly complexes in a??Mo(Ⅵ)-Se(Ⅳ),Te(Ⅵ) system. Inorg. Chim. Acta. 1998,281: 214.
[86] Vidyavathy Balraj, K. Vidyasagar, Low-Temperature systheses and Characterization of NovelLayered Tellurites, A_2Mo_3TeO_(12)(A = NH_4, Cs), and "Zero-Dimensional" Tellurites,A_4Mo_6Te_2O_(24)(A = Rb, K). Inorg. Chem. 1998, 37: 4764-4774.
[87] Gili P., Lorenzo-Luis P. A.; Martin-Zarza P.; Dominguez S., Sanchez A., Arrieta J. M.,Ruiz-Perez C, Heranandez-Molina M., Solans X. Molybdotellurates containing the1-methyl-2-methyl- and 4-methyl imidazolium cations. Trans. Met. Chem. 1999, 24 (2):141-151.
[88] Fedosseev A. M., Grigoriev M. S., Budantseva N. A., Shirokova I. B., Antic-Fidancev E.,Krupa J. C. Crystal Structure and Luminesecence Properties of Europium-doped Iodo- andTelluromolybdate Compounds. Journal of Luminescence. 2000, 87-97: 1065-1068.
[89] Daniel Drewes, Eva Melanie, Bernt Krebs, A series of novel Lanthanide Polyoxometalates:Condensation of Building Blocks Dependent on the Nature of Rare Earth Cations. DaltonTrans., 2004, 2087-291.
[90] Charushnikova I. A., Fedoseev A. M., Yusov A. B., et al. Crystal structure of a newneodymium hexamolybdotellurate, Nd_2[TeMo_6O_24]·19H_2O. Crystallography Reports, 2005,50(2): 185-190.
[91] Gao B., Liu S. X., Xie L. H., Zhang C. D., Sun C. Y., Cheng H. Y. Hydrothermal Assembly of(3,6)-connected Networks with Classical Mineral Structure Constructed from Anderson-typeHeteropolymolybdate and Metal Cations. Journal of Solid State Chemistry. 2006, 179:1680-1688.
[92] Ganelina E. Sh.; Bubnova L. A. Role of Tellurium(Ⅵ) in the formation of heteropoly acids.Zh. Neorg. Khim. 1973,18(8): 2180.
[93] Roy S. K.; Mishra H. C, Solid state studies on polymerization and depolymerization oftungstate ion with tellurium as the heteroatom. J. Indian. Chem. Soc. 1978, 55(2): 188-190.
[94] Schmidt K. J.; Schrobilgen G. J.; Sawyer, J. F. Hexasodium hexatungstotellurate(Ⅵ)22-hydrat. Acta. Crystallogr. 1986, C42(9): 1115-1118.
[95] Gutsul T. D., YurchenKo E. N., Preparation and structure of several selenium(Ⅳ) andtellurium(Ⅳ) heteropoly compounds. Koord. Khim. 1992, 18(9): 944.
[96]李祖碧,曹秋娥,徐其享,碲钨杂多酸-丁基罗丹B超高灵敏显色反应的研究,分析试验
[97] Lorenzo-Luis, P. A.; Gili, P.; Sanchez, A.; Rodriguez-Castellon, E.; Jimenez-Jimenez, J.; Ruiz-Perez, C. Tungstotellurates of the imidazolium and 4-methylimidazolium cations. Trans. Met. Chem. 1999, 24, 686-692.
[98] Ulrich Kortz, Masha G. Savelieff, Bassil S. Bassil, Bineta Keita, Louis Nadjo. Synthesis and Characterization of Iron(Ⅲ)-Substituted, Dimeric Polyoxotungstates,[Fe_4(H_2O)_(10)(β-XW_9O_(33))_2]~(n-) (n = 6, X = As~Ⅲ, Sb~Ⅲ; n = 4, X = Se~Ⅳ, Te~Ⅳ). Inorg. Chem. 2002, 41:783-789.
[99] Shaofen Mo, Zhenghua Ju, et al. Anderson-Evans Type Tungstotellurate with Metal-Organic Complex Moieties: Preparation, Structure and Properties of Na_2[Co(C_(12)H_8N_2)_3]_2[TeW_6O_(24)]·25.16H_2O. Synthesis and Reactivity in Inorganic, Metal-Organic and Nano-Metal Chemistry, 2006, 36: 687-692.
[100] Zhihong Xu, Pinxian Xi, Fengjuan Chen, Zhengzhi Zeng. Synthesis and characterization of a novel Anderson-type tungstotellurate decorated by transition metalcomplexes:[Na(H_2O)_3]_2[{Cu(2,2'-bipy)_2}_2(TeW_6O_(24))]·4H_2O Transition Met. Chem. 2008,33: 237-241.
[101] Yuhao Sun, Jingfu Liu, Enbo Wang, Preparation and Properties of some new 6-Heteropoly-Tellurate Compounds of Tungsten and Molybdenum containing Vanadium. Inorg. Chim. Acta. 1986,117(1): 23.
[102] Derkach L. V., Luong Ni., Kamerzan Z. S., Hertzberg Edeltraut, Synthesis and some Properities of the 8-tungsto-4-vanadotelluric acid complex. Zh. Neorg. Khim. 1977, 22(9): 2493.
[103] Ganelina E. Sh., Nikitina, T. K., Krasnopolskaya M. B. Study of the kinetics of the alkaline decomposition of vanadium-containing tellurium(Ⅳ) heteropolytungstates. Zh. Neorg. Khim. 1980,25(6): 1553.
[104] Derkach L. V., Polishchuk S. Ya., Kiosse G. A., Volodina G. F., Study of vanadium-tungstenheteropoly acids of tellurium(Ⅳ). Zh. Neorg. Khim. 1984,29(6): 1473.
[105] Borgoyakov V. A., Gorenkova G. A., Chertykova I. P., Stability of tungstovanadotelluric(Ⅳ) acids toward alkaline solutions. Zh. Neorg. Khim. 1986, 31(3): 668.
[106] Roy S. K., Ghosh B. N., Synthesis and Characterization of mixed heteropoly and penta(tungdto)(vanado)tellurates. Indian J. Chem. Sect. A, 1986, 25A(4): 379.
[107] Derkach L. V., Gogotova G. D., Shafranskii V. N., Arkhipova E. V., IR spectroscopic and derivatographic studies of the dehydration of glassy tungsten-containing selenium (IV) and tellurium (IV) heteropoly acids. Zh. Neorg. Khim. 1987, 32(5): 1086.
[108] Roy S. K., Dey K. C., Electronic spectra of some heteropoly complex anions. J. Indian Chem. Soc. 1992, 69(4): 224.
[109] Jingqi Guan, ShuBo Jing, Shujie Wu, et al. Selective Oxidation of Isobtane Over Mo-V-Te Mixed Oxide Catalysts with Different Tellurium Contents. React. Kinet. Catal.Lett. 2007, 90(1): 27-33.
[110] Shakhova Z. F., Zakharova V. F., Morosanova S. A., Ternary selenium-tellurium-molybdenum complex. Vestn. Most Univ. Khim. 1969, 24(5): 70.
[111] Derkach L. V., Arkhipova E. V., Gogotova G. D. Preparation of heteropoly complexes in the selenium(tellurium) (IV)-tungsten (VI)-silicon (IV) system. Zh. Neorg. Khim. 1988, 33(1):100.
[112] Yurchenko E. N., Gutsul T. D., Kuznetsova L. I., Heteropoly compound M_n [As(Se,Te)_2W_(18)Fe_3(H_2O)_3O_(66)] ·mH_2O and their interaction with nitric oxide. Koord.Khim. 1992, 18(9): 939.
[113] Roy S. K., Sinha P. K., Synthesis and characterization of some new heteropoly oxomolybdates containing two hetero atoms. J. Indian Chem. Soc. 1999, 76(6).
[114] Sinha Pradip K.., Acharya Ashok K., Roy Salil K., Synthesis of some new oxovanadates containing two hetero atoms. J. Indian Chem. Soc. 2000, 77(3): 164.
[115] Andrew J., Gaunt A new Structure Family of Heteropolytungstate Lacunary Compleses with the Uranyl UO~(2+), Cation. Dalton Trans., 2003, 3009-3014.
[1] Zubairi S.A., Ifzal S.M., Malik A., Heteropoly Complexes of Lanthanum with UnsaturatedHeteropolytungstate Ligands, Inorganica Chimica Acta, 1977, 22: 29-30.
[2] Gai, X. Z. et al. Synthesis and Crysthal Structure of Lanthanide HeteropolymolybdateComplex: (NH_4)_(12)H_(10)[Nd_4Mo_(29)O_(104)(H_2O)_(12)]·22H_2O. Chinese Journal of Structure Chemisty,1997, 16(3): 239-246.
[3]秦玉楠,新型稀土含钼杂多化合物(催化剂)的制备和应用.2002,26(5):17-19.
[4]吴新宇,牛俊奇,吴获等.新型稀土杂多化合物对乙型肝炎病毒复制的抑制作用.吉林大学学报(医学版),2007,33(2):223-226.
[5]王丽君,姜虹.杂多化合物抗番茄花叶病毒的研究.北华大学学报(自然科学版),2005, 6(3):221-223.
[6]刘景福,陈亚光,马建方等,穴状稀土杂多化合物的生物活性研究.中国稀土学报,2000, 18(3):282-285.
[7] Peacock R.D., Weakley T. J. R., Heteropolytungstate Complexes of the Lanthanide Elements. Part.l. Preparation and Reactions J.Chem. Soc. 1971, (A): 1836-1839.
[8]龚钰秋,舒瑶燕等,12一钨磷酸钕杂多铬盐的制备和性质,杭州大学学报(自然科学版), 1981,(3):282.
[9]日本化学会编,无机化合物合成手册(第二卷),化学工业出版社,260.
[10] Ratheesh R., Suresh G, Nayar V. LL Infared and Polarized Raman Spectra of M_6[TeMo_6O_(24)]·7H_2O[M = K, NH_4] and (NH_4)_6[TeMo_6O_(24)]·Te(OH)_6·7H_2O Single Crystals, J. Solid State Chem., 1995,118: 341-356.
[11] Allman R., Haase W., A Compound with Short O-H...F Hydrogen Bonds. Inorg. Chem., 1976, 15(4): 804-807.
[12] Blasse G, Hordijk W., The Vibrational Spectrum of Ni_3TeO_6 and Mg_3TeO_6. J. Solid State Chem. 1975, 5(3): 395-397.
[13]中本一雄,无机和配位化合物的红外和拉曼光谱,化学工业出版社,1986.
[14]柳士忠,许林,王恩波,稀土元素1:12系列钨锗杂多配合物的合成及性质研究[J].中 国稀土学报,1994,2(4):366-369.
[15]莫少芬.兰州大学硕士论文,2007.
[16] Flynn C.M., Pope Jr. M. T..Tungstovanadate heteropoly complex: Ⅳvanadium(Ⅳ)complexes. Inorg. Chem., 1973, 12(7): 1626-1634.
[17] Charushnikova I. A., Fedoseev A. M, Yusov A. B., et al. Crystal structure of a newneodymium hexamolybdotellurate, Nd_2TeMo_6O_(24)·19H_2O. Crystallography Reports, 2005,50(2): 185-190.
[18] Evans H. T.; Gatehouse B.M., J. Chem. Soc. Dalton Trans. 1975, 505
[19]王恩波,胡长文,许林,多酸化学导论.化学工业出版社,1998.
[1] Zhengbo Han, Enbo Wang, Wansheng You, et al. Synthesis and crystal structure of a novel compound: [H_3PMo_(12)O_(40)][CO(NH_2)_2]_3·5H_2O. Journal of Molecular Structure. 2001, 595: 7-13.
[2]邓谦,蔡铁军,彭振山等.钼钒砷杂多酸有机铵盐的合成及热稳定性研究.Journal ofMolecular Catalysis (China). 2001, 15(5): 374-378.
[3] Czelusniak I., Szymanska-Buzar T., Kenwright A., Khosravi E., Ring-opening metathesispolymerization of 5,6-bis(chloromethyl)norbornene by tungsten(Ⅱ) and molybdenum(Ⅱ)complexes. J.Catal. 2002, 81(3-4): 157-161.
[4] Sauer P., Frebortl., Molybdenum cofactor-containing oxidoreductase family in plants. Biol.Plant. 2003, 46 (4): 481-490.
[5] Bissessur R., Gallant D., Novel intercalation compound of poly[oligo(ethylene glycol)-oxalate]in molybdenum disulfide.J. Mater. Sci. 2003, 22: 429-431.
[6] Yan Xu, Dunru Zhu, You Song et al. Hydrothermal synthesis and crystal structure of the novelmixed Mo/V metal-oxygen cluster compound[Co(C2N2H8)3]4[Mo2Mol4V16O80(PO4)]·10H2O. Journal of Molecular Sturcture, 2006,782: 165-170.
[7]祁素芳,张国乾,马鹏涛等.Dawson结构杂多化合物(C_5H_6N)_(4.5)H_(1.5)(P_2W_(18)O_(62))·1.5H_2O的 合成及晶体结构.化学研究,2007,18(3):46-49.
[8] Khan M. I., Novel extended solids composed of transition metal oxide cluster. J. Solid StateChem. 2000, 152(1): 105-112.
[9] Liu C. M., Hou Y. L., Gao S., Hydrothermal synthesis and crystal structure of a novel two-dimensional vanadium oxide complex with a 6,14-net sinusoidal ruffling anionic layer: [Ni(phen)_2V_4O_(11)] (phen= 1,10-Phenanthroline). Inorg. Chem. 2002, 41(1): 140-143.
[10] Xu L., Sun Y. Q., Wang E. B., Shen E. H., Liu Z. R., Hu C, Xing Y, Lin Y H., Jia H. Q., A manganese molybdenum phosphate with a tunnel: hydrothermal synthesis, structure and catalytic properties of(NH_3CH_2CH_2NH_3)_(10)(H_3O)_3(H_5O_2)Na_2[MnMo_(12)O_(24)(OH)_6(PO_4)4(PO_3OH)_4][MnMo_(12)O_(24)(OH)??_6(PO_4)_6(PO_3OH)_2]·9H_2O. New J. Chem. 1999,23: 1041-1044.
[11]莫少芬,兰州大学硕士硕士论文,2007.
[12] Stalick J. K., Quicksall C. O., Two heteropoly anions containing organic groups. Crystal and molecular structures of ammonium pentamolybdobis(methylphosphonate) pentahydrate, (NH_4)_4[(CH_3P)_2Mo_5O_(21)]·5H_2O, and sodium tetramethylammonium pentamolybdo-bis(ethylammoniumphosphonate) pentahydrate, Na[N(CH_3)_4][(NH_3C_2H_4P)_2Mo_5O_(21)]·5H_2O. Inorg. Chem. 1976, 15 (7): 1577-1584.
[13]Aranzabe A., Wery A. S. J., Gutierrez-Zorrilla J. M., Matinez-Ripoll M., Roman P., Organoammoniumonium diphossphopentamolybdates(Ⅵ): influence of organic cations and anion protonation on crystal packing and geometrical features of polyanion. Inorg. Chim. Acta, 1997, 255: 35-45.
[14]陈英芳,红外和喇曼技术,纺织工业初版社,1988.
[15]王恩波,胡长文,许林,多酸化学导论,北京化学工业出版社,1998.
[16] Evans H. T., Gatehouse B. M., Crystal Structure of the Heptamolybdate(Ⅵ) (Paramolybdate) Ion [Mo_7O_(24)]~(6-), in the Ammonium and Potassium Tetrahydrate. J. Chem. Soc. Dalton. Trans., 1975,2:505-514.
[17] Martin C, Lamonier C, Fournier M., Mentre Q., Harle V., Guillaume D., Payen E., Preparation and Characterization of 6-Molybdocobaltate and 6-Molybdoaluminate Cobalt Salt, Evidence of a New Heteropolymolybdate Structure. Inorg. Chem., 2004,43: 4636-4644.
[18]陈砚美,兰州大学硕士论文,2006.
[19]中本一雄,无机和配位化合物的红外和拉曼光谱,化学工业出版社,1986.
[1] Nebebech Belai, Masahiro Sadakane, Michael T. Pope, Formation of Unsymmetrical Polyoxotungstates Via Transfer of Polyoxometalate Building Blocks. NMR Evidence Supports The Kinetic Stability of The Pentatungstate Anion, [W_5O_(18)]~(6-), In Aqueous Solution[J]. J Am. Chem. Soc, 2001, 123: 2087-2088.
[2] Tosho Okuhara, Hiromu Watanabe, Tom Nishimura, et al. Microstructure of CesiumHydrogen Salts of 12-Tungstophosphoric Acid Relevant to Novel Acid Catalysis[J]. J. Chem. Mater., 2000, 1 2: 2230-2238.
[3] Chen C C, Lei P X, Ji H W, Photocatalysis By Titanium Dioxide And Polyoxomeyalate / TiO2 Cocatalysts: Intermediates And Mechanistic Study [J]. Environ Sci. Technol, 2004, 38: 329-337.
[4]张进,唐英,罗茜,钼钒磷杂多酸的合成及催化性能研究[J].无机化学学报,2004,20: 935-939.
[5] Andrew J Gaunt, Lain May, Madeleine Helliwell, Structure And SpectroscopicCharacterization of A NeDtuyl Polyoxometalate Complex[J]. Am. Chem. Soc, 2002, 124:13350-13351.
[6] Rene Massart, Rikabd Contant, Jean-Marc Fruchart.~(31)P NMR Studies On Molybdic AndTungstic Heteropolyanions. Correlation Between Structure And Chemical Shift[J]. Inorg.Chem, 1977, 16:2916-2918.
[7] Zhang C, Robertha C Howell, Kymora B Scotland, et al. Aqueous Speciation Studies ofEuropium(Ⅲ) Phosphotungstatel [J]. Inorg. Chem., 2004, 43: 7691-7701.
[8]黄金萍,骆红山,李益康等,1:9磷钨杂多化合物的合成及结构表征[J].上海师范大学学 报(自然科学版),2005,34(3),50-54.
[9]王恩波,胡长文,许林,多酸化学导论,北京化学工业出版社,1998.
[10] Allman R., Haase W., A Compound with Short O-H...F Hydrogen Bonds. Inorg. Chem., 1976,15(4): 804-807.
[11] Blasse G, Hordijk W., The Vibrational Spectrum of Ni_3TeO_6 and Mg_3TeO_6. J. Solid State Chem. 1975, 5(3): 395-397.
[12]中本一雄,无机和配位化合物的红外和拉曼光谱,化学工业出版社,1986.
[13]梁映秋,刘举正,刘国发等,Raman And Infrared Spectra of Rare Earth Acetylacetonate. 分子科学学报,1981,1:101-110
[14] Jingyang Niu, Ziliang Wang, Jingping Wang. Hydrothermal synthesis and structure characterization of a Keggin Tungstocobaltate [Co(2,2'-bipy)_3]_2H_2[CoW_(12)O_(40)]·9.5H_2O. Polyhedron, 2004,23: 773-777.
[15]苏华能,兰州大学硕士论文,2005.
[16] Flynn C. M., Pope Jr. M. T., Tungstovanadate heteropoly: Ⅳ vanadium(Ⅳ)complexes. Inorg. Chem., 1973, 12(7): 1626-1634.
[17]望琼生,王世铭,张晓勤.Waugh型锰钼杂多酸层柱化合物的合成及性能.福建师范大 学学报(自然科学版).2004,20(2):71-73.
[18]王世铭,蔡秀真,黄金风等,K_(0.5)(NH_4)_(5.5)[MnMo_9O_(32)]·6H_2O的合成及其晶体结构[J].福 建师范大学学报(自然科学版),1997,13(4):45-49.
[19]莫少芬,兰州大学硕士论文,2007.