English
往期目录
新闻公告
More
化学进展 2006, Vol. 18 Issue (06): 727-733 前一篇   后一篇

• 综述与评论 •

稀土卤素气态配合物热力学性质的研究进展

孙艳辉;陈华妮*   

  1. 华南师范大学化学与环境学院 广州 510631 
  • 收稿日期:2005-07-29 修回日期:2005-11-01 出版日期:2006-06-24 发布日期:2006-06-24
  • 通讯作者: 陈华妮
下载PDF ( 1214 ) 引用
导出

Progress in Thermodynamic Properties of the Vapor Rare Earth Complexes with Halogen Bridges

Huani Chen;Yanhui Sun*   

  1. College of Environment and Chemistry, South China Normal University, Guangzhou 510631, China
  • Received:2005-07-29 Revised:2005-11-01 Online:2006-06-24 Published:2006-06-24
  • Contact: Yanhui Sun
本文对稀土卤素气态配合物LnMnX3n+3(M = Al,Fe;X = Cl,Br)和ALnX4(A = 碱金属;X = Cl,I)的热力学性质、研究方法及其在稀土分离制备方面的应用进行了综述。并对其今后的研究及应用进行了展望。
关键词: 稀土, 卤素气态配合物, 热力学性质
Thermodynamic properties of the vapor rare earth complexes with halogen bridges LnMnX3n+3(M = Al,Fe;X = Cl,Br) and ALnX4(A = alkali metals;X = Cl,I) are reviewed in this paper. Moreover,the methods to investigating thermodynamic properties and their application in the preparation and separation of rare earth elements are also discussed.The future work on thermodynamic properties of the vapor complexes and their applications are briefly introduced.
Key words: rare earth, halogen vapor complexes, thermodynamic properties

中图分类号: 

()

[ 1 ] 徐光宪(Xu G X) . 稀土(Rare Earth) , 第二版(2nd ed. ) . 北京: 冶金工业出版社(Beijing : Metallurgical Industry Press) ,2002. 40 —45
[ 2 ] Jacobs R R , Krupke W F. Appl . Phys. Lett . , 1979 , 35 : 126 —128
[ 3 ] Steaidl G, Baechmann K, Dienstbach F. J . Phys. Chem. , 1983 ,26 : 5010 —5015
[ 4 ] Adachi G, Shinozaki K, Hirashima Y, et al . J . Less-Common.Metal . , 1991 , 169 (1) : L1 —L4
[ 5 ] Papatheodorou G N , Kucera G H. Inorg. Chem. , 1979 , 18 (2) :385 —389
[ 6 ] Frid S A , Polyachenok O G, Novikov G I. Russ. J . Inorg.Chem. , 1964 , 9 : 556 —560
[ 7 ] aye H A , Gruen D M. J . Am. Chem. Soc. , 1969 , 91 : 2229 —2236
[ 8 ] Jacobs R R , Krupke W F. Appl . Phys. Lett . , 1978 , 32 : 31 —33
[ 9 ] Jiang J Z , Ozaki T , Machida K, Adachi G. J . Alloys Comp. ,1997 , 260 (1) : 226 —234
[10] Sun Y H , ZhangL Q , Wang Z C , et al . J . Alloys Comp. , 2000 ,306 (1) : 146 —150
[11] Zavarova T S , Zvara I. J . Chromatography , 1969 , 44 : 604 —608
[12] Adachi G, Murase K, Shinozaki K, et al . Chem. Lett . , 1992 ,244 (4) : 511 —514
[13] Murase K, Shinozaki K, Machida K, et al . Bull . Chem. Soc.Jpn. , 1992 , 65 (10) : 2724 —2728
[14] Murase K, Shinozaki K, Hirashima Y, Machida K, Adachi G. J .Alloys Comp. , 1996 , 198 : 31 —38
[15] Murase K, Machida K, Adachi G. Chem. Lett . , 1994 , 249(9) : 1297 —1300
[16] Murase K, Machida K, Adachi G. J . Alloys Comp. , 1995 , 217 :218 —225
[17] Murase K, Machida K, Adachi G. Chem. Lett . , 1992 , 12 :1555 —1558
[18] Murase K, Ozaki T , Machida K, Adachi G. J . Alloys Comp. ,1996 , 233 : 96 —106
[19] Ozaki T , Miyazawa K, Murase K, Machida K, Adachi G. J .Alloys Comp. , 1996 , 245 : 10 —14
[20] Jiang J Z , Ozaki T , Machida K, Adachi G. J . Alloys Comp. ,1998 , 264 : 157 —163
[21] Ozaki T , Jiang J Z , Murase K, Machida K, Adachi G. J . Alloys Comp. , 1998 , 26 : 125 —131
[22] Imanaka N , Okamoto K, Adachi G. Material Lett . , 2003 , 57 :1966 —1969
[23] Wang Z C , Sun Y H. Chem. Lett . , 1997 , 309 (10) : 1113 —1114
[24] Sun Y H , Wang Z C , Guo L. J . Alloys Comp. , 1998 , 269 (1): 88 —91
[25] Sun Y H , Wang Z C , Guo L. J . Alloys Comp. , 1999 , 285 (1): 73 —76
[26] Wang Z C , Sun Y H , Guo L. J . Alloys Comp. , 1998 , 287 (1): 109 —113
[27] Sun Y H , Wang Z C , Guo L. J . Rare Earths , 1999 , 17 : 178 —181
[28] Sun Y H , Zhang L Q , Lei P X, et al . J . Alloys Comp. , 2002 ,335 : 196 —199
[29] Sun YH , Chen Z F , He P. J . Alloys Comp. , 2005 , 390 : 182 —188
[30] Sun Y H , Chen Z F , Wang Z C. Trans. Nonferrous. Met . Soc.China , 2004 , 14 (2) : 412 —416
[31] Sun Y H , Chen Z F , Wang Z C. J . Alloys Comp. , 2004 , 377(2) : 188 —193
[32] Sun Y H , Chen Z F , He P. J . Alloys Comp. , 2005 , 390(1/2) :182 —188
[33] Gavryuchenkov F G, Novikov G I. Zhur. Neorg. Khim. , 1966 ,11 : 1515 —1517
[34] Gavryuchenkov F G, Novikov G I. Russ. J . Inorg. Chem. ,1966 , 11 : 810 —811
[35] Patrikeev Y B , Novikov G I , Badivskaya N V. Russ. J . Phys.Chem. , 1973 , 47 : 1236 —1239
[36] Novikov G I , Shnyp V A. Russ. J . Phys. Chem. , 1973 , 47 :915 —919
[37] McPhail D S , Hocking M G, Jeffes J H E. Int . J . Mass.Spectrom. Ion. Proc. , 1984 , 59 : 261 —279
[38] Semenov G A , Gavryuchenkov F G. Zhur. Neorg. Khim. , 1964 ,9 : 224 —225
[39] Semenov G A , Gavryuchenkov F G. Russ. J . Inorg. Chem. ,1964 , 123 —124
[40] Novikov G I , Baev A K. Russ. J . Inorg. Chem. , 1964 , 9 :905 —907
[41] Gavryuchenkov F G, Novikov G I. Vestink Leninggard. Univ. ,1966 , 9 : 106 —108
[42] Novikov G I , Gavryuchenkov F G. Russ. J . Inorg. Chem. ,1965 , 10 : 909 —912
[43] Novikov G I , Gavryuchenkov F G. Russ. J . Inorg. Chem. ,1965 , 10 : 1469 —1473
[44] Shnyp V A , Novikov G I. Russ. J . Phys. Chem. , 1972 , 46 :315 —318
[45] Schafer H , Wagner K. Z. Anorg. Allg. Chem. , 1979 , 450 :88 —90
[46] Wagner K, Schafer H. Z. Anorg. Allg. Chem. , 1979 , 451 :57 —58
[47] Schafer H , Wagner K. Z. Anorg. Allg. Chem. , 1979 , 451 :60 —63
[48] Wagner K, Schafer H. Z. Anorg. Allg. Chem. , 1979 , 452 :83 —85
[49] Wagner K, Schafer H. Z. Anorg. Allg. Chem. , 1979 , 450 :113 —115
[50] Murase K, Adachi G, Hashimoto M, Kudo H. Bull . Chem. Soc.Jpn. , 1996 , 69 : 353 —357
[51] Novikov G I , Tolmacheva V D. Russ. J . Phys. Chem. , 1965 ,28 : 1093 —1097
[52] Brewer L , Brackett E. Chem. Rev. , 1961 , 61 : 425 —432
[53] Foosnes T , aye H A. Acta Chem. Scand. , 1981 , 35 : 81 —89
[54] Hilper K, Miller M. J . Electrochem. Soc. , 1990 , 137 : 1618 —1623
[55] Hilper K, Miller M. High Temp. High Pressures , 1988 , 20 :231 —237
[56] Kaposi O , Lelik L , Balthazar K. High Temp. Sci . , 1983 , 16 :311 —315
[57] Metallinou M, Herstad O , Ostvold T. Acta. Chem. Scand. ,1990 , 44 : 683 —687
[58] Boghosian S , Herstad O. Polyhedron , 1994 , 13 : 1639 —1646
[59] Hirayama C , Castle P M. Proc. 11th Rare Earth Research Conf . ,1974 , 2 : 1048 —1053
[60] Liu C S , Zollweg R. J . Chem. Phys. , 1974 , 60 : 2384 —2390
[61] Hirayama C , Liu C S , Zollweg RJ . High Temp. High Pressures ,1978 , 2 : 95 —99
[62] Wang Z C , Wang L S. Inorg. Chem. , 1997 , 36 (8) : 1536 —1540
[63] Wang Z C , Wang L S , Gao R J , et al . J . Chem. Soc. , Faraday Trans. , 1996 , 92 (11) : 1887 —1890
[64] Novikov G I , Gavryuchenkov F G. Russ. Chem. Rev. , 1967 ,36 : 156 —157
[65] Schafer H , Floke U. Z. Anorg. Allg. Chem. , 1981 , 479 :89 —94
[66] Steidl G, Dienstbach F , Bachmann K. J . Polyhedron , 1983 , 2(8) : 727 —733
[67] Cosandey M, Emmenegger F F. J . Electrochem. Soc. , 1979 ,126 : 1601 —1603
[68] 于锦(Yu J ) , 杨冬梅(Yang D M) , 王之昌(Wang Z C) 等. 东北大学学报(J . Northeastern University) , 2005 , 2 : 201 —204
[69] 于锦(Yu J ) , 王林山(Wang L S) , 王之昌(Wang Z C) 等. 中国稀土学报(J . Chinese Rare Eearth Soc. ) , 2004 , 22 : 326 —330
[70] 于锦(Yu J ) , 杨冬梅(Yang D M) , 蒋军辉(Jiang J H) . 中国有色金属学报(The Chinese Journal of NonferrcusMetal) , 2004 ,14(4) : 702 —706
[71] Oppermann H , Herrera S , Huong D Q. Chem. Sci . , 1998 , 53(3) : 361 —366
[72] Hilpert K. J . Electrochem Soc. , 1989 , 136 (7) : 2099 —2108
[73] McPhail D S , Hocking M G, Jeffes J H E. J . Material Sci . ,1985 , 20 : 457 —466
[74] 王常珍(Wang C Z) . 冶金物理化学研究方法( Research Methods in Physical Chemistry of Metallurgical Process) , 第三版(3rd ed. ) . 北京冶金工业出版社(Beijing : Metallurgical Industry Press) , 2002. 254 —260
[1] 陆峰, 赵婷, 孙晓军, 范曲立, 黄维. 近红外二区发光稀土纳米材料的设计及生物成像应用[J]. 化学进展, 2022, 34(6): 1348-1358.
[2] 张柏林, 张生杨, 张深根. 稀土元素在脱硝催化剂中的应用[J]. 化学进展, 2022, 34(2): 301-318.
[3] 牟泽怀, 王银军, 谢鸿雁. 稀土金属配合物催化芳香型乙烯基极性单体立构选择性聚合[J]. 化学进展, 2020, 32(12): 1885-1894.
[4] 程倩, 于佳酩, 霍薪竹, 沈雨萌, 刘守新. 稀土氟化物上转换荧光增强及应用[J]. 化学进展, 2019, 31(12): 1681-1695.
[5] 姜玲, 阙亚萍, 丁勇, 胡林华, 张昌能, 戴松元. 上/下转换材料在染料敏化太阳电池中的应用进展[J]. 化学进展, 2016, 28(5): 637-646.
[6] 李龙飞, 摆音娜, 雷鸣, 刘力. 橡胶硫化促进剂的研究进展[J]. 化学进展, 2015, 27(10): 1500-1508.
[7] 赵传奇, 曲晓刚*. 稀土手性配合物在核酸识别及调控方面的研究[J]. 化学进展, 2013, 25(04): 539-544.
[8] 刘涛, 孙丽宁, 刘政, 仇衍楠, 施利毅. 稀土上转换发光纳米材料的应用[J]. 化学进展, 2012, 24(0203): 304-317.
[9] 秦玉升, 王献红, 王佛松. 二氧化碳基共聚物[J]. 化学进展, 2011, 23(4): 613-622.
[10] 刘政, 孙丽宁, 施利毅, 张登松. 近红外稀土荧光在功能材料领域的研究进展[J]. 化学进展, 2011, 23(01): 153-164.
[11] 王延梅 王丽. 杯芳烃稀土配合物的光性能及应用*[J]. 化学进展, 2010, 22(0203): 427-432.
[12] 杨晓峰,董相廷,王进贤,刘桂霞. 无机纳米稀土发光材料的制备方法*[J]. 化学进展, 2009, 21(6): 1179-1186.
[13] 张翼,周新新,张玉洁. 金属氧化物涂层钛阳极的研究* [J]. 化学进展, 2009, 21(09): 1827-1831.
[14] 张金超,王鹏,孙静,刘翠莲,陈华,黄健. 从稀土对骨代谢的影响看稀土的药用及安全性* [J]. 化学进展, 2009, 21(05): 919-928.
[15] 耿杰,于海佳,张海元,徐海霞,曲晓刚. 稀土氨基酸配合物与核酸的相互作用*[J]. 化学进展, 2009, 21(05): 866-872.