English
往期目录
新闻公告
More
化学进展 2011, Vol. 23 Issue (12): 2466-2477 前一篇   后一篇

• 综述与评论 •

多相硅氢加成催化剂的制备及应用

白赢1,2, 彭家建2, 厉嘉云2, 来国桥1,2*, 李小年1*   

  1. 1. 浙江工业大学工业催化研究所 绿色化学合成技术国家重点实验室培育基地 杭州 31003;
    2. 杭州师范大学有机硅化学及材料技术教育部重点实验室 杭州 310012
  • 收稿日期:2011-03-01 修回日期:2011-04-01 出版日期:2011-12-24 发布日期:2011-09-29
  • 作者简介:e-mail:gqlai@hznu.edu.cn; xnli@zjut.edu.cn
  • 基金资助:

    国家自然科学基金项目(No.20802014)和浙江省重大科技专项优先主题项目(No.2008C14041)资助

下载PDF ( 1364 ) 引用
导出 被引次数 ( 7 | 3 )

Preparation Methods and Application of Heterogeneous Catalysts for Hydrosilylation

Bai Ying1,2, Peng Jiajian2, Li Jiayun2, Lai Guoqiao1,2*, Li Xiaonian1*   

  1. 1. State Key Laboratory Breeding Base of Green Chemistry-Synthesis Technology, Industrial Catalysis Institute, Zhejiang University of Technology, Hangzhou 31003;
    2. Key Laboratory of Organosilicon Chemistry and Material Technology of Ministry of Education, Hangzhou Normal University, Hangzhou 310012, China
  • Received:2011-03-01 Revised:2011-04-01 Online:2011-12-24 Published:2011-09-29
硅氢加成反应是有机硅化学领域最为重要的反应之一。自该反应于1947年被发现以来,大量的文献对其进行了报道。本文综述了近十年来应用于硅氢加成反应的各类负载型催化剂的研究进展,介绍了活性炭、二氧化硅、分子筛等负载过渡金属催化剂,重点介绍了有机-无机杂化载体负载Pt、Rh、Au等多相催化剂的制备方法及其在硅氢加成反应中的应用,并分析了其催化作用机理;总结了功能高分子化合物负载过渡金属在硅氢加成反应中的研究,和新型含不同官能基团的离子液体络合金属催化剂的制备方法及其对不饱和烃与含氢硅烷的硅氢加成反应的催化性能,总结和讨论了催化反应机理的研究,并对多相硅氢加成催化剂的发展方向进行了分析和展望。
关键词: 硅氢加成, 多相催化剂, 加成
Hydrosilylation is one of the most important reactions in organo silicone chemistry, which can prepare functional silanes and silicon polymers. Since the first report in 1947, a lot of literatures relating to hydrosilylation reaction have been published. This review summarizes the novel progress in the synthesis methods and application of heterogeneous catalysts for hydrosilylation in the last decade. A variety of heterogeneous catalysts have been prepared by using a series of carriers such as active carbon, silica and zeolite e.g. supported platinum, rhodium and gold catalyst,etc. The synthesis methods of organic and inorganic heterozygous carrier loaded transition metals as heterogeneous catalysts and application in the hydrosilylation are introduced emphatically. The catalytic performance of these catalysts and the catalytic mechanism are summarized and discussed. Some new types of polymers with functional groups have been synthesized and used to immobilize metals, those carving polymer particle catalysts always show interesting performance for hydrosilylation processes. Ionic liquid supported rhodium or ruthenium complexes as a new type of catalysts have been synthesized and applied in the hydrosilylation of alkenes or alkynes with excellent catalytic activity and selectivity as well as recycle performance. The development trend of supported catalysts for hydrosilylation reaction is also described. Contents 1 Introduction 2 Inorganic carrier loaded metal catalysts and their applications in catalytic hydrosilylation 3 Preparation of inorganic carrier functionalized with organic group loaded metal catalysts and their catalytic properties 3.1 Inorganic carrier functionalized with natural organic polymer loaded metal catalysts 3.2 Inorganic carrier functionalized with silane loaded metal catalysts 4 Functional polymer loaded metal catalysts 5 Ionic liquid loaded metal catalysts 6 Conclusions and perspectives
Key words: hydrosilylation, heterogeneous catalysts, addition

中图分类号: 

()
[1] Marciniec B, Gulinski J, Urbaniak W, Kornetka Z W. Comprehensive Handbook on Hydrosilylation. New York: Oxford Pergamon Press, 1992. 1
[2] 幸松民(Xing S M), 王一璐(Wang Y L). 有机硅合成工艺及产品应用. 北京: 化学工业出版社(Beijing: Chemical Industry Press), 2000. 38-47
[3] Speier J L, Webster J A, Barnes G H. J. Am. Chem. Soc., 1957, 79 (4): 574-580
[4] Marko I E, Sterin S, Buisine O, Mignani G, Branlard P, Bernard T, Declercq J P. Science, 2002, 298(5591): 204-206
[5] Dioumaev V K, Bullock R M. Nature, 2000, 424(6948): 530-532
[6] Lavastre O, Morken J P. New J. Chem., 2002, 26(6): 745-749
[7] Maciejewski H, Wawrzyncaak A, Dutkiewicz M, Fiedorow R. J. Mol. Catal. A: Chem., 2006, 257(1/2): 141-149
[8] Jimenez R, Martinez-Rosales J M, Cervantes J. Can. J. Chem., 2003, 81(1): 1370-1375
[9] Polizzi C, Caporusso A M, Vitulli G, Salvadori P. J. Organometal. Chem., 1993, 451(1/2): C4-C6
[10] Polizzi C, Caporusso A M, Vitulli G, Salvadori P, Pasero M. J. Mol. Catal., 1994, 91(1): 83-90
[11] Jimenez R, ELopez J M, Cervantes J. Can. J. Chem., 2000, 78(11): 1491-1495
[12] Michalska Z M, Strzelec K. React. Funct. Polym., 2000, 44(2): 189-199
[13] Takaki K, Sonoda K, Kousaka T, Koshoji G, Shishido T, Takehira K. Tetrahedron Lett., 2001, 42 (52): 9211-9214
[14] 戴延凤(Dai Y F), 李凤仪(Li F Y). 化学试剂(Chemical Reagents), 2005, 27 (9): 525-530
[15] 赵建波(Zhao J B), 孙雨安(Sun Y A), 张宁(Zhang N), 杨浩(Yang H). 工业催化(Industrial Catalysis), 2005, 13(12): 10-13
[16] 黄世强(Huang S Q), 孙争光(Sun Z G), 彭慧(Peng H). 有机硅材料及应用(Silicone Material & Applications), 1999, 13(2): 24-28
[17] Chauhan M, Hauck B J, Keller L P, Boudjouk P. J. Organomet. Chem., 2002, 645(1/2): 1-13
[18] Marciniec B, Maciejewski H, Duczmal W, Fiedorow R, Kitynski D. Appl. Organomet. Chem., 2003, 17(2): 127-134
[19] 白赢(Bai Y), 彭家建(Peng J J), 胡应乾(Hu Y Q), 厉嘉云(Li J Y), 邱化玉(Qiu H Y), 蒋剑雄(Jiang J X), 来国桥(Lai G Q). 化学学报(Acta Chimica Sinica), 2009, 67(10): 1155-1158
[20] 胡文斌(Hu W B), 崔英德(Cui Y D), 廖列文(Liao L W), Macquarrie D. 化工新型材料(New Chemical Materials), 2007, 35(8): 1-3
[21] 胡文斌(Hu W B), 崔英德(Cui Y D), 廖列文(Liao L W), Macquarrie D. 现代化工(Modern Chemical Industry), 2007, 27(4): 72-74
[22] Alonso F, Buitrago R, Moglie Y, Ruiz-Martínez J, Sepúlveda-Escribano A, Yus M. J. Organomet. Chem., 2011, 696(1): 368-372
[23] Caporusso A M, Panziera N, Pertici P, Pitzalis E, Salvadori P, Vitulli G, Martra G. J. Mol. Catal. A: Chem., 1999, 150(1/2): 275-285
[24] Caporusso A M, Aronica L A, Schiavi E, Martra G, Vitulli G, Salvadori P. J. Organomet. Chem., 2005, 690(4): 1063-1066
[25] Corma A, González-Arellano C, Iglesias M, Sánchez F. Angew. Chem. Int. Ed., 2007, 46(41): 7820-7822
[26] Aronica L A, Schiavi E, Evangelisti C, Caporusso A M, Salvadori P, Vitulli G, Bertinetti L, Martra G. J. Catal., 2009, 266(2): 250-257
[27] 蒋华麟(Jiang H L), 吴光辉(Wu G H), 陈萍华(Chen P H), 邓锋杰(Deng F J), 邓安民(Deng A M). 有机硅材料(Silicone Material), 2006, 20(2): 57-59
[28] 赵建波(Zhao J B), 孙雨安(Sun Y A), 谢冰(Xie B), 吴诗德(Wu S D), 孙红旗(Sun H Q). 现代化工(Modern Chemical Industry), 2007, 27(2): 42-44
[29] Zhao J B, Xie B, Wang G Q, Song S Q, Sun Y A. React. Kinet. Catal. Lett., 2009, 96(1): 101-108
[30] Zhao J B, Sun X L, Xie B, Wang G Q, Song S Q, Sun Y A. Res. Chem. Intermed., 2009, 35(5): 625-631
[31] Miao Q J, Fang Z P, Cai G P. Catal. Commun., 2003, 4(12): 637-639
[32] Yang H T, Fang Z P, Fu X Y, Tong L F. Catal. Commun., 2008, 9(6): 1092-1095
[33] Yang H T, Fang Z P, Fu X Y, Tong L F. Chin. J. Catal., 2007, 28(11): 947-952
[34] Michalska Z M, Rogalski , Rózga-Wijas K, Chojnowski J, Fortuniak W, Scibiorek M. J. Mol. Catal. A: Chem., 2004, 208(1/2): 187-194
[35] 朱淮军(Zhu H J), 廖洪流(Liao H L), 李凤仪(Li F Y). 精细化工(Fine Chemicals), 2006, 23(1): 50-53
[36] Marciniec B, Szubert K, Fiedorow R, Kownacki I, Potrzebowski M J, Dutkiewicz M, Franczyk A. J Mol. Catal. A: Chem., 2009, 310(1/2): 9-16
[37] Marciniec B, Szubert K, Potrzebowski M J, Kownacki I, Maciejewski H. Chem. Cat. Chem., 2009, 1(2): 304-310
[38] Okamoto M, Kiya H, Yamashita H, Suzuki E. Chem. Commun., 2002, (15): 1634-1635
[39] Okamoto M, Kiya H, Matsumura A, Suzuki E. Catal. Lett., 2008, 123(1/2): 72-79
[40] 罗艳(Luo Y), 戴延凤(Dai Y F), 朱文兵(Zhu Y B), 付敏(Fu M). 化工新型材料(New Chemical Materials), 2007, 35(10): 17-19
[41] 戴延凤(Dai Y F), 文惠敏(Wen H M), 李凤仪(Li F Y). 应用化学(Chinese Journal of Applied Chemistry), 2006, 23(6): 602-606
[42] 朱淮军(Zhu H J), 廖洪流(Liao H L), 李凤仪(Li F Y). 有机硅材料(Silicone Material), 2006, 20(3): 103-107
[43] 戴延凤(Dai Y F), 茹翔(Ru X), 李凤仪(Li F Y). 化工新型材料(New Chemical Materials), 2005, 33(12): 57-59
[44] 邓锋杰(Deng F J), 徐少华(Xu S H), 温远庆(Wen Y Q), 李卫凡(Li W F), 李凤仪(Li F Y). 化工进展(Chemical Industry and Engineering Progress), 2008, 27(1): 112-114
[45] 戴延凤(Dai Y F), 萧斌(Xiao B), 李凤仪(Li F Y), 茹翔(Ru X). 化学试剂(Chemical Reagents), 2005, 27(12): 707-709, 718
[46] 戴延凤(Dai Y F), 李凤仪(Li F Y), 萧斌(Xiao B). 现代化工(Modern Chemical Industry), 2005, 25(5): 31-33
[47] Alauzun J, Mehdi A, Reyé C, Corriu R. Chem. Mater., 2007, 19(26): 6373-6375
[48] Liu G, Cai M Z. J. Mol. Catal. A: Chem., 2006, 258(1/2): 257-260
[49] Liu G, Huang B, Cai M Z. React. Funct. Polym., 2007, 67(4): 294-298
[50] Gauvin R M, Delevoye L, Hassan R A, Keldenich J, Mortreux A. Inorg. Chem., 2007, 46(4): 1062-1070
[51] Gauvin R M, Buch F, Delevoye L, Harder S. Chem. Eur. J., 2009, 15(17): 4382- 4393
[52] 王玲治(Wang L Z), 江英彦(Jiang Y Y). 高分子通讯(Polymer Communications), 1983, (1): 78-80
[53] 张立峰(Zhang L F), 方鹏飞(Fang P F), 卢雪然(Lu X R), 陈远萌(Chen Y M). 高等学校化学学报(Chemical Journal of Chinese Universities), 1997, 18(3): 444-448
[54] Hu C Y, Han X M, Jiang Y Y. J. Mol. Catal., 1986, 35(3): 329-333
[55] 陈远荫(Chen Y M), 卢雪然(Lu X R), 钟振林(Zhong Z L). 应用化学(Chinese Journal of Applied Chemistry), 1992, 9(3): 26-30
[56] 陈远荫(Chen Y M), 卢雪然(Lu X R), 钟振林(Zhong Zh L). 高分子学报(Acta Polymerica Sinica), 1992, (5): 527-531
[57] 蔡明中(Cai M Z), 宋才生(Song C S), 陈江敏(Chen J M). 离子交换与吸附(Ion Exchange and Adsorption), 1997, 13(6): 556-561
[58] 蔡明中(Cai M Z), 宋才生(Song C S), 陈江敏(Chen J M). 应用化学(Chinese Journal of Applied Chemistry), 1997, 14(4): 37-40
[59] Hu R H, Zha L F, Cai M Z. Catal. Commun., 2010, 11(6): 563-566
[60] Zhao H, Zha L F, Cai M Z. Reac. Kinet. Mech. Cat., 2010, 100(1): 187-196
[61] Zha L F, Yang W S, Hao W Y, Cai M Z. Chin. Chem. Lett., 2010, 21(11): 1310-1313
[62] Hamasaka G, Kawamorita S, Ochida A, Akiyama R, Hara K, Fukuoka A, Asakura K, Chun W J, Ohmiya H, Sawamura M. Organometallics, 2008, 27(24): 6495-6506
[63] Drake R, Sherrington D C, Thomson S J. J. Chem. Soc. Perkin Trans. Ⅰ, 2002, 1523-1534
[64] Drake R, Sherrington D C, Thomson S J. React. Funct. Polym., 2004, 60(1): 65-75
[65] Drake R, Dunn R, Sherrington D C, Thomson S J. J. Mol. Catal. A: Chem., 2001, 177(1): 49-69
[66] Shih H H, Williams D, Mack N H, Wang H L. Macromolecules, 2009, 42(1): 14-16
[67] Bai Y, Peng J J, Hu Y Q, Li J Y, Lai G Q. J. Fluor. Chem., 2011, 132(1): 123-127
[68] Michalska Z M, Strzelec K. J. Mol. Catal. A: Chem., 2001, 177(1): 89-104
[69] 戴延凤(Dai Y F), 李磊(Li L), 李凤仪(Li F Y). 化工进展(Chemical Industry and Engineering Progress), 2006, 25(1): 74-77
[70] Zhang Y G, Zhao L, Patra P K, Ying J Y. Adv. Synth. Catal., 2008, 350(5): 662-666
[71] Tan M X, Zhang Y G, Ying J Y. Adv. Synth. Catal., 2009, 351(9): 1390-1394
[72] Imlinger N, Wurst K, Buchmeiser M R. Monatsh. Chem., 2005, 136(1): 47-57
[73] Peng J J, Li J Y, Bai Y, Gao W H, Qiu H Y, Wu H, Deng Y, Lai G Q. J. Mol. Catal. A: Chem., 2007, 278(1/2): 97-101
[74] Peng J J, Li J Y, Bai Y, Qiu H Y, Jiang K Z, Jiang J X, Lai G Q. Catal. Commun., 2008, 9(13): 2236-2238
[75] Wu C, Peng J J, Li J Y, Bai Y, Hu Y Q, Lai G Q. Catal. Commun., 2008, 10(2): 248-250
[76] 厉 嘉云(Li J Y), 彭家建(Peng J J), 邱化玉(Qiu H Y), 蒋剑雄(Jiang J X), 来国桥(Lai G Q). 中国科技论文在线: http: //www. paper. edu. cn/index. php/default/releasepaper/ content/200703-115
[77] 厉嘉云(Li J Y), 彭家建(Peng J J), 吴慧(Wu H), 白赢(Bai Y), 邱化玉(Qiu H Y), 蒋剑雄(Jiang J X), 来国桥(Lai G Q). 化学学报(Acta Chimica Sinica), 2008, 66(9): 1009-1014
[78] 厉嘉云(Li J Y), 彭家建(Peng J J), 胡应乾(Hu Y Q), 白赢(Bai Y), 邱化玉(Qiu H Y), 来国桥(Lai G Q). 化学试剂(Chemical Reagents), 2009, 31(7): 535-537, 550
[79] 厉嘉云(Li J Y), 彭家建(Peng J J), 邱化玉(Qiu H Y), 蒋剑雄(Jiang J X), 邬继荣(Wu J R), 倪勇(Ni Y), 来国桥(Lai G Q). 化学学报(Acta Chimica Sinica), 2007, 65(8): 715-721
[80] Li J Y, Peng J J, Bai Y, Zhang G D, Lai G Q, Li X N. J. Organomet. Chem., 2010, 695(3): 431-436
[81] Li J Y, Peng J J, Wang D L, Bai Y, Jiang J X, Lai G Q. J. Organomet. Chem., 2011, 696(1): 263-268
[82] Li J Y, Peng J J, Bai Y, Hu Y Q, Qiu H Y, Lai G Q, Li X N. Phosphorus, Sulfur, Silicon Relat. Elem., 2010, 185(2): 484-490
[1] 曹如月, 肖晶晶, 王伊轩, 李翔宇, 冯岸超, 张立群. 杂Diels-Alder 环加成反应级联RAFT聚合[J]. 化学进展, 2023, 35(5): 721-734.
[2] 董军, 许家喜. 烯亚砜化合物的制备及反应概述[J]. 化学进展, 2022, 34(5): 1088-1108.
[3] 廖伊铭, 吴宝琪, 唐荣志, 林峰, 谭余. 环张力促进的叠氮-炔环加成反应[J]. 化学进展, 2022, 34(10): 2134-2145.
[4] 曾滴, 刘雪晨, 周沅逸, 王海鹏, 张玲, 王文中. 催化转化呋喃类生物质制备芳香烃化合物的研究[J]. 化学进展, 2022, 34(1): 131-141.
[5] 符志成, 许家喜. 氧杂环丁烷的合成[J]. 化学进展, 2021, 33(6): 895-906.
[6] 魏雪梅, 马占伟, 慕新元, 鲁金芝, 胡斌. 乙炔羰基化反应催化剂:由均相到多相[J]. 化学进展, 2021, 33(2): 243-253.
[7] 章强, 黄文峻, 王延斌, 李兴建, 张宜恒. 基于铜催化叠氮-炔环加成反应的聚氨酯功能化[J]. 化学进展, 2020, 32(2/3): 147-161.
[8] 李路瑶, 徐鑫尧, 朱博, 常俊标. 吡唑酮化合物在催化不对称反应中的应用[J]. 化学进展, 2020, 32(11): 1710-1728.
[9] 王灯旭, 曹金风, 韩栋栋, 李文思, 冯圣玉. 有机硅合成新方法[J]. 化学进展, 2019, 31(1): 110-120.
[10] 符志成, 许家喜*. 氮杂环丁烷的合成[J]. 化学进展, 2018, 30(8): 1047-1066.
[11] 杨晓玲, 白赢*, 厉嘉云, 代自男, 彭家建*. 钛、镍、铁配合物在硅氢加成反应中的应用[J]. 化学进展, 2018, 30(12): 2012-2024.
[12] 宫晓蕾, 高文超, 常宏宏, 魏文珑*, 李兴*. 联烯化合物环加成反应的最新研究[J]. 化学进展, 2017, 29(11): 1331-1350.
[13] 王建东, 许家喜. 含邻手性碳原子双键亲电加成反应的立体选择性模型[J]. 化学进展, 2016, 28(6): 784-800.
[14] 何福喜, 唐刚, 闵晓燕, 胡敏奇, 邵立东, 毕韵梅. N-乙烯基己内酰胺的活性/可控自由基聚合[J]. 化学进展, 2016, 28(2/3): 328-336.
[15] 邵月刚, 刘继, 陈向前, 金培玉, 唐红定. 铂配合物类催化剂在γ-氯丙基三氯硅烷合成中的应用[J]. 化学进展, 2015, 27(9): 1182-1190.