Dinuclear Compounds

  • Ulf Thewalt
  • Reinhard Hemmer
Chapter
Part of the Ti. Titan. Titanium (System-Nr. 41) book series (GMELIN, volume T-i / 1-5 / 5)

Abstract

The salt-like compounds listed in Table 1, which contain anions of the types [(CH3)2Ti2X6X′]- and [(CH3)2Ti2X6X 2 ]2- (X, X′ = Cl, Br), form in the reaction of CH3TiCl3 or CH3TiBr3 with the appropriate ammonium (or arsonium) halide.

This is a preview of subscription content, log in to check access.

Preview

Unable to display preview. Download preview PDF.

Unable to display preview. Download preview PDF.

References

  1. [1]
    V. M. Plets (Zh. Obshch. Khim. 8 [1938] 1298/301).Google Scholar
  2. [2]
    D. F. Herman, W. K. Nelson (J. Am. Chem. Soc. 75 [1953] 3877/82).Google Scholar
  3. [3]
    D. F. Herman, W. K. Nelson (J. Am. Chem. Soc. 75 [1953] 3882/7).Google Scholar
  4. [4]
    Titangesellschaft m. b. H., D. F. Herman (Ger. 1 032 924 [1956/58]).Google Scholar
  5. [5]
    National Lead Co. (Brit. 856 434 [1956/60]).Google Scholar
  6. [6]
    Société Belge du Titane S. A., D. F. Herman (Belg. 559 048 [1957]).Google Scholar
  7. [7]
    C. E. H. Bawn, R. Symcox (J. Polym. Sci. 34 [1959] 139/51).Google Scholar
  8. [8]
    D. F. Herman (Advan. Chem. Ser. No. 23 [1959] 265/71).Google Scholar
  9. [9]
    National Lead Co., D. F. Herman (U. S. 2 963 471 [1959/60]).Google Scholar
  10. [10]
    Farbwerke Hoechst A.-G., A. Gumboldt, H. Jastrow (Ger. 1203775 [1964/65]).Google Scholar
  11. [11]
    Farbwerke Hoechst A.-G. (Neth. Appi. 6507858 [1965]).Google Scholar
  12. [12]
    Idemitsu Kosan Co., Ltd., Y. Sudo, H. Sugahara (Japan. 69/19544 [1965/69] from CA 71 [1969] No. 113429).Google Scholar
  13. [13]
    Idemitsu Kosan Co., Ltd., Y. Sudo, M. Uchiyama, H. Sugawara, Y. Takeshita, F. Tomori, M. Ogawa, T. Nishimura (Japan. 69/20987 [1966/69] from CA. 72 [1970] No. 13193).Google Scholar
  14. [14]
    Idemitsu Kosan Co., Ltd. (Fr. 1540898 [1966/68]).Google Scholar
  15. [15]
    Idemitsu Kosan Co., Ltd., Y. Shudo, M. Uchiyama, Y. Takeshita, H. Sugahara, F. Higashimori, M. Ogawa, T. Nishimura (Japan. 71/06566 [1967/71] f rom CA. 75 [1971] No. 63982).Google Scholar
  16. [16]
    Idemitsu Kosan Co., Ltd., Y. Sudo, M. Uchiyama, H. Sugawara, Y. Takeshita, S. Tomori, M. Ogawa, T. Nishimura (Japan. 70/21716 [1967/70] from CA. 73 [1970] No. 121067).Google Scholar
  17. [17]
    Idemitsu Kosan Co., Ltd., Y. Sudo, Y. Takeshita, Y. Konuma, T. Nishimura, N. Higashimori, M. Ogawa, H. Tachibana (Japan. 70/24787 [1967/70] from CA. 73 [1970] No. 121068).Google Scholar
  18. [18]
    K. Clauss (Liebigs Ann. Chem. 711 [1968] 19/21).Google Scholar
  19. [19]
    U. Giannini, U. Zucchini (Chem. Commun. 1968 940).Google Scholar
  20. [20]
    Idemitsu Kosan Co., Ltd., Y. Shudo, Y. Takeshita, H. Ichikawa (Japan. 72/01769 [1968/72] from CA. 77 [1972] No. 6121).Google Scholar
  21. [21]
    M. Takeda, K. Iimura, Y. Nozawa, M. Hisatome, N. Koide (J. Polym. Sci. Polym. Symp. No. 23 [1968] 741/52).Google Scholar
  22. [22]
    Y. Shuto, H. Sugahara, S. Higashimori (4th Intern. Conf. Organometal. Chem., Bristol 1969, Abstr. No. K2).Google Scholar
  23. [23]
    Y. Shuto, M. Uchiyama, H. Sugahara (Kinet. Mech. Polyreactions Intern. Symp. Macromol. Chem., Budapest 1969 [1971], Preprints, Vol. 2, pp. 401/4).Google Scholar
  24. [24]
    Idemitsu Kosan Co., Ltd., Y. Sudo, Y. Takeshita, H. Konuma, H. Tachibana, T. Nishimura (Japan. 72/08603 [1969/72] from CA. 77 [1972] No. 49191).Google Scholar
  25. [25]
    M. Ogawa, unpublished, from [26].Google Scholar
  26. [26]
    H. Sugahara, Y. Shuto (J. Organometal. Chem. 24 [1970] 709/12).Google Scholar
  27. [27]
    K.-H. Thiele, W. Schäfer (Z. Anorg. Allgem. Chem. 379 [1970] 63/7).Google Scholar
  28. [28]
    A. Yoshino, Y. Shuto, Y. Iitaka (Acta Cryst. B 26 [1970] 744/54).Google Scholar
  29. [29]
    T.S. Dzhabiev, F.S. D’yachkovskii, A. Ye.Shilov(Vysokomol.Soedin. A13 [1971] 2474/80Google Scholar
  30. [29a]
    T.S. Dzhabiev, F.S. D’yachkovskii, A. Ye.Shilov Polym. Sci. [USSR] 13 [1971] 2780/9).Google Scholar
  31. [30]
    U. Zucchini, E. Albizzati, U. Giannini (J. Organometal. Chem. 26 [1971] 357/72).Google Scholar
  32. [31]
    J. Causse, R. Tabacchi, A. Jacot-Guillarmod (Helv. Chim. Acta 55 [1972] 1560/6).Google Scholar
  33. [32]
    L S. Bresler, I. Ya. Poddubnyi, T. K. Smirnova, A. S. Khachaturov, I. Yu. Tsereteli (Dokl. Akad. Nauk SSSR 210 [1973] 847/50Google Scholar
  34. [32a]
    L S. Bresler, I. Ya. Poddubnyi, T. K. Smirnova, A. S. Khachaturov, I. Yu. Tsereteli Dokl. Chem. Proc. Acad. Sci. USSR 208/213 [1973] 451/5).Google Scholar
  35. [33]
    Teijin, Ltd., H. Yamaguchi, M. Saito, S. Ishimoto (Japan. Kokai 75/100022 [1973/75] from CA. 84 [1976] No. 30718).Google Scholar
  36. [34]
    T. S. Dzhabiev, F. S. D’yachkovskii (Zh. Obshch. Khim. 44 [1974] 332/5Google Scholar
  37. [34a]
    T. S. Dzhabiev, F. S. D’yachkovskii J. Gen. Chem. [USSR] 44 [1974] 316/8).Google Scholar
  38. [35]
    Idemitsu Kosan Co., Ltd., Y. Takeshita, Y. Shuto (Japan. Kokai 75/141694 [1974/75] from CA. 84 [1976] No. 151263).Google Scholar
  39. [36]
    G. P. Belov, T. F. Dzhabiev, F. S. D’yachkovskii (Mech. Hydrocarbon React. Symp., Siofok, Hung., 1973 [1975], pp. 507/16).Google Scholar
  40. [37]
    H. Stoeckli-Evans (Helv. Chim. Acta 58 [1975] 373/7).Google Scholar
  41. [38]
    A. Flamini, D. J. Cole-Hamilton, G. Wilkinson (J. Chem. Soc. Dalton Trans. 1978 454/9).Google Scholar
  42. [39]
    K.-H. Thiele, A. Roder, W. Mörke (Z. Anorg. Allgem. Chem. 441 [1978] 13/22).Google Scholar
  43. [40]
    J.-B. Weber, J. Porret, A. Jacot-Guillarmod (Helv. Chim. Acta 61 [1978] 2949/55).Google Scholar
  44. [41]
    J. C Huffman, K. G. Moloy, J. A. Marsella, K. G. Caulton (J. Am. Chem. Soc. 102 [1980] 3009/14).Google Scholar
  45. [42]
    C Blandy, D. Gervais (Inorg. Chim. Acta 47 [1981] 197/9).Google Scholar
  46. [43]
    M. T. Reetz, R. Steinbach, J. Westermann, R. Urz, B. Wenderoth, R. Peter (Angew. Chem. 94 [1982] 133/4Google Scholar
  47. [43a]
    M. T. Reetz, R. Steinbach, J. Westermann, R. Urz, B. Wenderoth, R. Peter Angew. Chem. Intern. Ed. Engl. 21 [1982] 135).Google Scholar
  48. [44]
    E. M. Meyer, A. Jacot-Guillarmod (Helv. Chim. Acta 66 [1983] 898/901).Google Scholar
  49. [45]
    T. V. Lubben, P. T. Wolczanski, G. D. Van Duyne (Organometallics 3 [1984] 977/83).Google Scholar
  50. [46]
    D. Roulet, J. Caperos, A. Jacot-Guillarmod (Helv. Chim. Acta 67 [1984] 1475/7).Google Scholar
  51. [47]
    K. Kostova, M. Hesse (Helv. Chim. Acta 67 [1984] 1713/24).Google Scholar
  52. [48]
    M. T. Reetz, J. Westermann, R. Steinbach, B. Wenderoth, R. Peter, R. Ostarek, S. Maus (Chem. Ber. 118 [1985] 1421/40).Google Scholar
  53. [49]
    B. Milenkov, M. Süsse, M. Hesse (Helv. Chim. Acta 68 [1985] 2115/8).Google Scholar
  54. [50]
    T. V. Lubben, P. T. Wolczanski (J. Am. Chem. Soc. 109 [1987] 424/35).Google Scholar
  55. [51]
    H. Takahashi, A. Kawabata, K. Higashiyama (Chem. Pharm. Bull. 35 [1987] 1604/7).Google Scholar
  56. [1]
    B. Crociani, M. Nicolini, R. L Richards (J. Organometal. Chem. 101 [1975] C1/C3).Google Scholar
  57. [2]
    H. Schmidbaur, W. Scharf, H.-J. Füller (Z. Naturforsch. 32b [1977] 858/62).Google Scholar
  58. [3]
    H. Schmidbaur (8th Intern. Conf. Organometal. Chem., Kyoto, Japan, 1977, Abstr. p. 33).Google Scholar
  59. [4]
    H. Schmidbaur (Pure Appi. Chem. 50 [1978] 19/25).Google Scholar
  60. [5]
    M. Behnam-Dehkordy, B. Crociani, M. Nicolini, R. L Richards (J. Organo metal. Chem. 181 [1979] 69/80).Google Scholar
  61. [6]
    R. P. Planalp, R. A. Andersen, A. Zalkin (Organometallics 2 [1983] 16/20).Google Scholar
  62. [7]
    H. Schmidbaur, R. Pichl, G. Müller (Angew. Chem. 98 [1986] 572/3Google Scholar
  63. [7a]
    H. Schmidbaur, R. Pichl, G. Müller Angew. Chem. Intern. Ed. Engl. 25 [1986] 574).Google Scholar
  64. [1]
    T. S. Dzhabiev, F. S. D’yachkovskii, L. I. Chemaya (Izv. Akad. Nauk SSSR Ser. Khim. 1975 1091/5; Bull Acad. Sci. USSR Div. Chem. Sci. 1975 1000/3).Google Scholar
  65. [2]
    K.-H. Thiele, A. Roder, W. Mörke (Z. Anorg. Allgem. Chem. 441 [1978] 13/22).Google Scholar
  66. [3]
    E. A. Grigoryan, F. S. D’yachkovskii, S. Ya. Zhuk, A. T. Papoyan, L I. Vyshinskaya (Dokl. Akad. Nauk SSSR 255 [1980] 134/7Google Scholar
  67. [3a]
    E. A. Grigoryan, F. S. D’yachkovskii, S. Ya. Zhuk, A. T. Papoyan, L I. Vyshinskaya Dokl. Chem. Proc. Acad. Sci. USSR 255 [1980] 898/900).Google Scholar
  68. [4]
    G. A. Razuvaev, L. I. Vyshinskaya, G. A. Vasil’eva, A. V. Malysheva, A. M. Rabinovich (Zh. Obshch. Khim. 52 [1982] 1338/45Google Scholar
  69. [4a]
    G. A. Razuvaev, L. I. Vyshinskaya, G. A. Vasil’eva, A. V. Malysheva, A. M. Rabinovich J. Gen. Chem. [USSR] 52 [1982] 1178/84).Google Scholar
  70. [5]
    S. B. Sverchinskaya, G. N. Bondarenko, I. Sh. Guzman, E. I. Tinyakova, B. A. Dolgoplosk (Dokl. Akad. Nauk SSSR 290 [1986] 1406/10Google Scholar
  71. [5a]
    S. B. Sverchinskaya, G. N. Bondarenko, I. Sh. Guzman, E. I. Tinyakova, B. A. Dolgoplosk Dokl. Chem. Proc. Acad. Sci. USSR 290 [1986] 950/4).Google Scholar
  72. [6]
    O. M. Chukanova, N. E. Khrushch, F. S. D’yachkovskii, N. S. Enikolopyan (Izv. Akad. Nauk SSSR Ser. Khim. 1986 2686/91Google Scholar
  73. [6a]
    O. M. Chukanova, N. E. Khrushch, F. S. D’yachkovskii, N. S. Enikolopyan Bull. Acad. Sci. USSR Div. Chem. Sci. 1986 2462/6).Google Scholar
  74. [1]
    R. Tabacchi, A. Jacot-Guillarmod (Helv. Chim. Acta 53 [1970] 1977/82).Google Scholar
  75. [2]
    R. Tabacchi, A. Jacot-Guillarmod (Chimia [Switz.] 25 [1971] 326/30).Google Scholar
  76. [3]
    A. Jacot-Guillarmod, D. Roulet (Chimia [Switz.] 28 [1974] 15).Google Scholar
  77. [4]
    H. Stoeckli-Evans (Helv. Chim. Acta 57 [1974] 684/9).Google Scholar
  78. [5]
    T. S. Dzhabiev, F. S. D’yachkovskii, L I. Chernaya (Izv. Akad. Nauk SSSR Ser. Khim. 1975 1091/5; Bull. Acad. Sci. USSR Div. Chem. Sci. 1975 1000/3).Google Scholar
  79. [6]
    D. Steinborn (Z. Chem. [Leipzig] 16 [1976] 328).Google Scholar
  80. [7]
    S. I. Beilin, S. B. Gol’shtein, B. A. Dolgoplosk, E. I. Tinyakova (U.S.S.R. 591478 [1976/78] from CA. 88 [1978] No. 170296).Google Scholar
  81. [8]
    S. I. Beilin, S. B. Gol’shtein, B. A. Dolgoplosk, I. Sh. Guzman, E. I. Tinyakova (J. Organo-metal. Chem. 142 [1977] 145/8).Google Scholar
  82. [9]
    S. I. Beilin, S. B. Gol’shtein, B. A. Dolgoplosk, A. M. Krapivin, E. I. Tinyakova, I. Sh. Guzman, G. I. Bondarenko (Dokl. Akad. Nauk SSSR 235 [1977] 99/102Google Scholar
  83. [9a]
    S. I. Beilin, S. B. Gol’shtein, B. A. Dolgoplosk, A. M. Krapivin, E. I. Tinyakova, I. Sh. Guzman, G. I. Bondarenko Dokl. Chem. Proc. Acad. Sci. USSR 232/237 [1977] 367/70).Google Scholar
  84. [10]
    L. L. Afinogenova, I. Sh. Guzman, E. I. Tinyakova, B. A. Dolgoplosk (Dokl. Akad. Nauk SSSR 251 [1980] 383/5Google Scholar
  85. [10]
    L. L. Afinogenova, I. Sh. Guzman, E. I. Tinyakova, B. A. Dolgoplosk Dokl. Chem. Proc. Acad. Sci. USSR 250/255 [1980] 193/5).Google Scholar
  86. [11]
    L. L. Afinogenova, I. Sh. Guzman, E. I. Tinyakova, B. A. Dolgoplosk (Dokl. Akad. Nauk SSSR 252 [1980] 1408/11Google Scholar
  87. [11]
    L. L. Afinogenova, I. Sh. Guzman, E. I. Tinyakova, B. A. Dolgoplosk Dokl. Chem. Proc. Acad. Sci. USSR 250/255 [1980] 480/2).Google Scholar
  88. [12]
    G. A. Nesterov, V. A. Zakharov, N.G. Maksimov (Vysokomol. Soedin. B 22 [1980] 808/11 from CA. 94 [1981] No. 66183).Google Scholar
  89. [13]
    L. L. Afinogenova, I. Sh. Guzman, E. I. Tinyakova, B. A. Dolgoplosk (Dokl. Akad. Nauk SSSR 257 [1981] 1162/6Google Scholar
  90. [13]
    L. L. Afinogenova, I. Sh. Guzman, E. I. Tinyakova, B. A. Dolgoplosk Dokl. Chem. Proc. Acad. Sci. USSR 256/261 [1981] 316/20).Google Scholar
  91. [14]
    B. A. Dolgoplosk, E. I. Tinyakova, I. Sh. Guzman, L. L. Afinogenova (J. Organometal. Chem. 244 [1983] 137/43).Google Scholar
  92. [15]
    G. A. Razuvaev, L. I. Vyshinskaya, S. Ya. Timoshenko (Dokl. Akad. Nauk SSSR 276 [1984] 1147/50Google Scholar
  93. [15]
    G. A. Razuvaev, L. I. Vyshinskaya, S. Ya. Timoshenko Dokl. Chem. Proc. Acad. Sci. USSR 274/279 [1984] 215/9).Google Scholar
  94. [16]
    B. A. Dolgoplosk, E. I. Tinyakova, I. Sh. Guzman, L. L. Afinogenova (J. Polym. Sci. Polym. Chem. Ed. 22 [1984] 1535/40).Google Scholar
  95. [17]
    S. B. Sverchinskaya, G. N. Bondarenko, I. Sh. Guzman, E. I. Tinyakova, B. A. Dolgoplosk (Dokl. Akad. Nauk SSSR 290 [1986] 1406/10Google Scholar
  96. [17a]
    S. B. Sverchinskaya, G. N. Bondarenko, I. Sh. Guzman, E. I. Tinyakova, B. A. Dolgoplosk Dokl. Chem. Proc. Acad. Sci. USSR 286/291 [1986] 950/4).Google Scholar
  97. [18]
    S. I. Beilin, S. B. Gol’shtein (Dokl. Akad. Nauk SSSR 229 [1976] 351/2Google Scholar
  98. [18a]
    S. I. Beilin, S. B. Gol’shtein Dokl. Chem. Proc. Acad. Sci. USSR 229 [1976] 471/2).Google Scholar
  99. [19]
    N. A. Venediktova, Ye. N. Kropacheva, L. V. Smirnova, L. I. Vyshinskaya, S. Ya. Timoshenko (Vysokomol. Soedin. A 22 [1980] 977/81Google Scholar
  100. [19a]
    N. A. Venediktova, Ye. N. Kropacheva, L. V. Smirnova, L. I. Vyshinskaya, S. Ya. Timoshenko Polymer Sci. [USSR] 22 [1980] 1077/82).Google Scholar
  101. [20]
    J. C. W. Chien, J.-C. Wu, M. D. Rausch (J. Am. Chem. Soc. 103 [1981] 1180/5).Google Scholar
  102. [21]
    S. B. Sverchinskaya, G. N. Bondarenko, I. Sh. Guzman, E. I. Tinyakova, G. A. Dolgoplosk (Izv. Akad. Nauk SSSR Ser. Khim. 1987 2736/9Google Scholar
  103. [21a]
    S. B. Sverchinskaya, G. N. Bondarenko, I. Sh. Guzman, E. I. Tinyakova, G. A. Dolgoplosk Bull. Acad. Sci. USSR Div. Chem. Sci. 1987 2536/9).Google Scholar
  104. [1]
    H. de Vries (Reel. Trav. Chim. 80 [1961] 866/78).Google Scholar
  105. [2]
    T. S. Dzhabiev, F. S. D’yachkovskii, A. Ye. Shilov (Vysokomol. Soedin. A13 [1971] 2474/80Google Scholar
  106. [2a]
    T. S. Dzhabiev, F. S. D’yachkovskii, A. Ye. Shilov Polym. Sci. [USSR] 13 [1971] 2780/9).Google Scholar
  107. [3]
    H. Bürger, C. Kluess (J. Organometal. Chem. 56 [1973] 269/77).Google Scholar
  108. [4]
    T. S. Dzhabiev, F. S. D’yachkovskii, N. I. Shishkina (Izv. Akad. Nauk SSSR Ser. Khim. 1973 1238/43; Bull. Acad. Sci. USSR Div. Chem. Sci. 1973 1197/201).Google Scholar
  109. [5]
    T. S. Dzhabiev, F. S. D’yachkovskii, N. D. Karpova (Kinetika Kataliz 15 [1974] 67/71Google Scholar
  110. [5a]
    T. S. Dzhabiev, F. S. D’yachkovskii, N. D. Karpova Kinet. Catal. [USSR] 15 [1974] 53/6).Google Scholar
  111. [6]
    T. S. Dzhabiev, F. S. D’yachkovskii (Zh. Obshch. Khim. 44 [1974] 332/5Google Scholar
  112. [6a]
    T. S. Dzhabiev, F. S. D’yachkovskii J. Gen. Chem. [USSR] 44 [1974] 316/8).Google Scholar
  113. [7]
    T. S. Dzhabiev, F. S. D’yachkovskii, I. A. Ishtryakov (Neftekhimiya 14 [1974] 700/6 from CA. 82 [1975] No. 42605).Google Scholar
  114. [8]
    Z. M. Dzhabieva, T. S. Dzhabiev, G. P. Belov (Izv. Akad. Nauk SSSR Ser. Khim. 1975 1750/3; Bull. Acad. Sci. USSR Div. Chem. Sci. 1975 1634/6).Google Scholar
  115. [9]
    E. A. Grigoryan, F. S. D’yachkovskii, I. R. Mullagaliev (Dokl. Akad. Nauk SSSR 224 [1975] 859/61Google Scholar
  116. [9a]
    E. A. Grigoryan, F. S. D’yachkovskii, I. R. Mullagaliev Dokl. Chem. Proc. Acad. Sci. USSR 220/225 [1975] 1023/5).Google Scholar
  117. [10]
    U. Thewalt, D. Schomburg (Z. Naturforsch. 30b [1975] 636).Google Scholar
  118. [11]
    G. P. Belov, T. F. Dzhabiev, F. S. D’yachkovskii (Mech. Hydrocarbon React. Symp., Siofok, Hung., 1973 [1975], pp. 507/16).Google Scholar
  119. [12]
    P. M. Nedorezova, V. I. Tsvetkova, F. S. D’yachkovskii (Vysokomol. Soedin. A 18 [1976] 2240/7Google Scholar
  120. [12]
    P. M. Nedorezova, V. I. Tsvetkova, F. S. D’yachkovskii Polym. Sci. [USSR] 18 [1976] 2562/71).Google Scholar
  121. [13]
    H. Bürger, C. Kluess (Z. Anorg. Allgem. Chem. 423 [1976] 112/6).Google Scholar
  122. [14]
    W. Scharf, D. Neugebauer, U. Schubert, H. Schmidbaur (Angew. Chem. 90 [1978] 628/9).Google Scholar
  123. [15]
    R. Clement (Diss. Inst. Natl. Polytech. Lorraine, Nancy 1979 from [19]).Google Scholar
  124. [16]
    J. C. W. Chien, J.-C. Wu, M. D. Rausch (J. Am. Chem. Soc. 103 [1981] 1180/5).Google Scholar
  125. [17]
    U. Schubert, D. Neugebauer, W. Scharf (J. Organometal. Chem. 206 [1981] 159/68).Google Scholar
  126. [18]
    J. C. Huffman, K. G. Moloy, J. A. Marsella, K. G. Caulton (J. Am. Chem. Soc. 102 [1980] 3009/14).Google Scholar
  127. [19]
    M. Aldissi, F. Schue, L. Girai, M. Rolland (Polymer 23 [1982] 246/50).Google Scholar
  128. [1]
    R. Maskill, J. M. Pratt (Chem. Commun. 1967 950/1).Google Scholar
  129. [1]
    National Lead Co., D. F. Herman, D. Simone, R. M. Weil (U.S. 3114737 [1958/63]).Google Scholar
  130. [2]
    National Lead Co., D. Simone, D. F. Herman (U.S. 3037004 [1958/62]).Google Scholar
  131. [3]
    National Lead Co., D. Simone, D. F. Herman (U.S. 3053817 [1959/62]).Google Scholar
  132. [4]
    P. D. Bartlett, B. Seidel (J. Am. Chem. Soc. 83 [1961] 581/4).Google Scholar
  133. [5]
    E. W. Randall (AD-263 735 [1961] 1/59; N. S. A. 16 [1962] No. 17552).Google Scholar
  134. [6]
    H. Köpf (Chem. Ber. 102 [1969] 1509/12).Google Scholar
  135. [7]
    K. Shikata, Y. Miura, S. Nakao, K. Azuma (Kogyo Kagaku Zasshi 68 [1965] 2266/70).Google Scholar
  136. [8]
    R. S. P. Coutts, P. C. Wailes (Australian J. Chem. 20 [1967] 1579/85).Google Scholar
  137. [9]
    R. Ralea, C. Ungurenasu, S. Cihodaru (Rev. Roumaine Chim. 12 [1967] 861/5).Google Scholar
  138. [10]
    A. J. Canty, R. S. P. Coutts, P. C. Wailes (Australian J. Chem. 21 [1968] 807/10).Google Scholar
  139. [11]
    E. C. Alyea, D. C. Bradley, M. F. Lappert, A. R. Sanger (Chem. Commun. 1969 1064/5).Google Scholar
  140. [12]
    S. P. Gubin, S. A. Smirnova (J. Organometal. Chem. 20 [1969] 229/40).Google Scholar
  141. [13]
    G. Henrici-Olivé, S. Olive (Makromol. Chem. 121 [1969] 70/4).Google Scholar
  142. [14]
    G. A. Razuvaev, V. N. Latyaeva, A. N. Lineva (Dokl. Akad. Nauk SSSR 187 [1969] 340/2Google Scholar
  143. [14a]
    G. A. Razuvaev, V. N. Latyaeva, A. N. Lineva Dokl. Chem. Proc. Acad. Sci. USSR 184/189 [1969] 545/7).Google Scholar
  144. [15]
    S. A. Smirnova, S. P. Gubin (Izv. Akad. Nauk SSSR Ser. Khim. 19691890/7; Bull. Acad. Sci. USSR Div. Chem. Sci. 1969 1750/6).Google Scholar
  145. [16]
    C. Ungurenasu, A. Cecal (J. Inorg. Nuci. Chem. 31 [1969] 1735/6).Google Scholar
  146. [17]
    E. Wasserman, L. C. Snyder, W. A. Yager (J. Chem. Phys. 41 [1964] 1763/72).Google Scholar
  147. [18]
    R. S. P. Coutts, P. C. Wailes (Advan. Organometal. Chem. 9 [1970] 135/93).Google Scholar
  148. [19]
    J. G. Kenworthy, J. Myatt, P. F. Todd (J. Chem. Soc. B 1970 791/4).Google Scholar
  149. [20]
    G. A. Razuvaev, V. N. Latyaeva, A. N. Lineva (Zh. Obshch. Khim. 40 [1970] 1804/12Google Scholar
  150. [20a]
    G. A. Razuvaev, V. N. Latyaeva, A. N. Lineva J. Gen. Chem. [USSR] 40 [1970] 1789/95).Google Scholar
  151. [21]
    R. S. P. Coutts, R. L Martin, P. C. Wailes (Australian J. Chem. 24 [1971] 1079/80).Google Scholar
  152. [22]
    D. E. Scaife (unpublished results from [38] and [59]).Google Scholar
  153. [23]
    R. S. P. Coutts, R. L. Martin, P. C. Wailes (Australian J. Chem. 24 [1971] 2533/40).Google Scholar
  154. [24]
    V. T. Kalinnikov, A. A. Pasynskii, G. M. Larin, V. M. Novotortsev, O. D. Ubozhenko, A. A. Zharkikh (Proc. 15th Intern. Conf. Coord. Chem., Moscow 1973, p. 335 from [41]).Google Scholar
  155. [25]
    V. T. Kalinnikov, G. M. Larin, O. D. Ubozhenko, A. A. Zharkikh, V. N. Latyaeva, A. N. Lineva (Dokl. Akad. Nauk SSSR 199 [1971] 95/8Google Scholar
  156. [25a]
    V. T. Kalinnikov, G. M. Larin, O. D. Ubozhenko, A. A. Zharkikh, V. N. Latyaeva, A. N. Lineva Dokl. Chem. Proc. Acad. Sci. USSR 196/201 [1971] 545/8).Google Scholar
  157. [26]
    M. F. Lappert, A. R. Sanger (J. Chem. Soc. A 1971 874/7).Google Scholar
  158. [27]
    M. F. Lappert, A. R. Sanger (J. Chem. Soc. A 1971 1314/20).Google Scholar
  159. [28]
    N. N. Vyshinskii, T. I. Ermolaeva, V. N. Latyaeva, A. N. Lineva, N. E. Lukhton (Dokl. Akad. NaukSSSR 198 [1971] 1081/4Google Scholar
  160. [28a]
    N. N. Vyshinskii, T. I. Ermolaeva, V. N. Latyaeva, A. N. Lineva, N. E. Lukhton Dokl. Chem. Proc. Acad. Sci. USSR 196/201 [1971] 487/90).Google Scholar
  161. [29]
    R. S. P. Coutts, R. L Martin, P. C. Wailes (Australian J. Chem. 25 [1972] 1401/9).Google Scholar
  162. [30]
    R. S. P. Coutts, R. L Martin, P. C. Wailes (Australian J. Chem. 26 [1973] 47/55).Google Scholar
  163. [31]
    R. S. P. Coutts, R. L. Martin, P. C. Wailes (Inorg. Nuci. Chem. Letters 9 [1973] 49/52).Google Scholar
  164. [32]
    R. S. P. Coutts, P. C. Wailes, R. L. Martin (J. Organometal. Chem. 50 [1973] 145/51).Google Scholar
  165. [33]
    R. S. P. Coutts, R. L. Martin, P. C. Wailes (Australian J. Chem. 26 [1973] 941/50).Google Scholar
  166. [34]
    R. S. P. Coutts, R. L. Martin, P. C. Wailes (Inorg. Nuci. Chem. Letters 9 [1973] 981/5).Google Scholar
  167. [35]
    C. Floriani, G. Fachinetti (J. Chem. Soc. Dalton Trans. 1973 1954/7).Google Scholar
  168. [36]
    R. S. P. Coutts, P. C. Wailes (J. Organometal. Chem. 73 [1974] C5/C6).Google Scholar
  169. [37]
    R. S. P. Coutts, F. D. Looney, R. L. Martin, P. C. Wailes (Australian J. Chem. 27 [1974] 1851/4).Google Scholar
  170. [38]
    R. S. P. Coutts, P. C. Wailes (Australian J. Chem. 27 [1974] 2483/6).Google Scholar
  171. [39]
    M. L. H. Green, C. R. Lucas (J. Organometal. Chem. 73 [1974] 259/64).Google Scholar
  172. [40]
    R. W. Harrigan, G. S. Hammond, H. B. Gray (J. Organometal. Chem. 81 [1974] 79/85).Google Scholar
  173. [41]
    V. T. Kalinnikov, V. V. Zelentsov, V. A. Kolosov, G. M. Larin, V. M. Novotortsev, Yu. V. Rakitin, A. A. Zharkikh (Zh. Neorgan. Khim. 19 [1974] 1805/9Google Scholar
  174. [41a]
    V. T. Kalinnikov, V. V. Zelentsov, V. A. Kolosov, G. M. Larin, V. M. Novotortsev, Yu. V. Rakitin, A. A. Zharkikh Russ. J. Inorg. Chem. 19 [1974] 983/6).Google Scholar
  175. [42]
    G. M. Larin, V. T. Kalinnikov, V. V. Zelentsov (Fiz. Mat. Metody Koord. Khim. Tezisy Dokl. 5th Vses. Soveshch., Kishinev, USSR, 1974, p. 154).Google Scholar
  176. [43]
    A. A. Pasynskii, T. Ch. Idrisov, K. M. Suvorova, I. L. Eremenko, E. B. Ivanova, V. T. Kalinnikov (Izv. Akad. Nauk SSSR Ser. Khim. 1974 2564/8; Bull. Acad. Sci. USSR Div. Chem. Sci. 1974 2471/5).Google Scholar
  177. [44]
    T. N. Tarkhova, T. S. Kuntsevich, E. A. Gladkikh (Fiz. Mat. Metody Koord. Khim. Tezisy Dokl. 5th Vses. Soveshch., Kishinev, USSR, 1974, p. 148).Google Scholar
  178. [45]
    N. N. Vyshinskii, T. I. Ermolaeva, N. K. Rudnevskii (Tr. Khim. Khim. Tekhnol. 1974 123/4 from CA. 83 [1975] No. 170280).Google Scholar
  179. [46]
    R. S. P. Coutts, P. C. Wailes, (J. Organometal. Chem. 84 [1975] 47/52).Google Scholar
  180. [47]
    L. E. Manzer (J. Organometal. Chem. 102 [1975] 167/74).Google Scholar
  181. [48]
    C. G. Salentine, M. F. Hawthorne (J. Chem. Soc. Chem. Commun. 1975 848/9).Google Scholar
  182. [49]
    K. N. Semenenko, B. M. Bulychev, G. L. Soloveichik (U.S.S.R. 505 649 [1974/76]; C.A. 85 [1976] No. 143303).Google Scholar
  183. [50]
    H. T. Verkouw, M. E. E. Veldman, C J. Groenenboom, H. O. van Oven, H. J. de Liefde Meijer (J. Organometal. Chem. 102 [1975] 49/56).Google Scholar
  184. [51]
    A. Zwijnenburg, H. O. van Oven, C. J. Groenenboom, H. J. de Liefde Meijer (J. Organometal. Chem. 94 [1975] 23/7).Google Scholar
  185. [52]
    C. R. Lucas, M. L. H. Green (Inorg. Syn. 16 [1976] 237/9).Google Scholar
  186. [53]
    L. E. Manzer (J. Organometal. Chem. 110 [1976] 291/4).Google Scholar
  187. [54]
    L E. Manzer, R. C Gearhart, L. J. Guggenberger, J. F. Whitney (J. Chem. Soc. Chem. Commun. 1976 942/3).Google Scholar
  188. [55]
    C. G. Salentine, M. F. Hawthorne (Inorg. Chem. 15 [1976] 2872/82).Google Scholar
  189. [56]
    C. G. Salentine, M. F. Hawthorne (AD-A028364 [1976]; C.A. 86 [1977] No. 29902).Google Scholar
  190. [57]
    K. N. Semenenko, E. B. Lobkovskii, A. I. Shumakov (Zh. Strukt. Khim. 17 [1976] 1073/5Google Scholar
  191. [57]
    K. N. Semenenko, E. B. Lobkovskii, A. I. Shumakov J. Struct. Chem. [USSR] 17 [1976] 912/4).Google Scholar
  192. [58]
    T. N. Tarkhova, E. A. Gladkikh, I. A. Grishin, A. N. Lineva, V. V. Khalmanov (Zh. Strukt. Khim. 17 [1976] 1052/9Google Scholar
  193. [58]
    T. N. Tarkhova, E. A. Gladkikh, I. A. Grishin, A. N. Lineva, V. V. Khalmanov J. Struct. Chem. [USSR] 17 [1976] 896/901).Google Scholar
  194. [59]
    R. S. P. Coutts (Inorg. Nuci. Chem. Letters 13 [1977] 41/4).Google Scholar
  195. [60]
    L. E. Manzer (J. Organometal. Chem. 135 [1977] C6/C9).Google Scholar
  196. [61]
    K. N. Semenenko, E. B. Lobkovskii (3rd Intern. Semin. Cryst. Chem. Coord. Organomet. Compounds Proa, Trzebieszowice, Pol., 1977, pp. 170/1 from CA. 93 [1980] No. 17250).Google Scholar
  197. [62]
    B. M. Bulychev, V. B. Polyakova, G. L Soloveichik, K. N. Semenenko (Koord. Khim. 4 [1978] 566/70Google Scholar
  198. [62a]
    B. M. Bulychev, V. B. Polyakova, G. L Soloveichik, K. N. Semenenko Soviet J. Coord. Chem. 4 [1978] 425/8).Google Scholar
  199. [63]
    J. R. DJlworth, H. J. de Liefde Meijer, J. H. Teuben (J. Organometal. Chem. 159 [1978] 47/52).Google Scholar
  200. [64]
    L. E. Manzer (J. Am. Chem. Soc. 100 [1978] 8068/73).Google Scholar
  201. [65]
    G. L. Soloveichik, B. M. Bulychev, K. N. Semenenko (Koord. Khim. 4 [1978] 1216/22Google Scholar
  202. [65a]
    G. L. Soloveichik, B. M. Bulychev, K. N. Semenenko Soviet J. Coord. Chem. 4 [1978] 913/9).Google Scholar
  203. [66]
    N. A. Yakovleva, G. L. Soloveichik, B. M. Bulychev (Izv. Akad. Nauk SSSR Ser. Khim. 1978 1409/12; Bull. Acad. Sci. USSR Div. Chem. Sci. 1978 1228/30).Google Scholar
  204. [67]
    B. M. Bulychev, S. E. Tokareva, G. L Soloveichik, E. V. Evdokimova (J. Organometal. Chem. 179 [1979] 263/73).Google Scholar
  205. [68]
    G. A. Razuvaev, V. N. Latyaeva, L. I. Vishinskaya, T. P. Samarina (J. Organometal. Chem. 164 [1979] 41/6).Google Scholar
  206. [69]
    N. A. Yakovleva, G. L. Soloveichik, B. M. Bulychev (Izv. Akad. Nauk SSSR Ser. Khim. 1980 1928/31 from CA. 93 [1980] No. 238564).Google Scholar
  207. [70]
    S. Gambarotta, C Floriani, A. Chiesi-Villa, C Guastini (J. Chem. Soc. Chem. Commun. 1982 1015/7).Google Scholar
  208. [71]
    S. Gambarotta, C. Floriani, A. Chiesi-Villa, C. Guastini (J. Am. Chem. Soc. 105 [1983] 7295/301).Google Scholar
  209. [72]
    C T. Vroegop, J. H. Teuben, F. van Bolhuis, J. G. M. van der Linden (J. Chem. Soc. Chem. Commun. 1983 550/2).Google Scholar
  210. [73]
    M. Etienne, R. Choukroun, M. Basso-Bert, F. Dahan, D. Gervais (Nouv. J. Chim. 8 [1984] 531/5).Google Scholar
  211. [74]
    G. Fochi, C. Floriani (J. Chem. Soc. Dalton Trans. 1984 2577/80).Google Scholar
  212. [75]
    J. Nieman, J. W. Pattiasina, J. H. Teuben (J. Organometal. Chem. 262 [1984] 157/69).Google Scholar
  213. [76]
    M. Kilner, G. Parkin, A. G. Talbot (J. Chem. Soc. Chem. Commun. 1985 34/5).Google Scholar
  214. [77]
    W. Skupinski, A. Wasilewski (J. Organometal. Chem. 282 [1985] 69/74).Google Scholar
  215. [78]
    O. D. Ubozhenko, A. A. Zharkikh (Tr. Nauchn. Konf. Mosk. Fiz. Tekhn. Inst. Ser. Obshch. Prikl. Fiz. Mol. Khim. Fiz., 1970 [1972], pp. 107/18 from CA. 79 [1973] No. 136305).Google Scholar
  216. [79]
    B. Demerseman, R. Mahé, P. H. Dixneuf (J. Chem. Soc. Chem. Commun. 1984 1394/6).Google Scholar
  217. [80]
    M. Kilner, G. Parkin (J. Organometal. Chem. 302 [1986] 181/91).Google Scholar
  218. [81]
    B. M. Bulychev, E. V. Evdokimova (U.S.S.R. 899519 [1980/82] from CA. 97 [1987] No. 109604).Google Scholar
  219. [82]
    A. Dormond, T. Kolavudh, J. Tirouflet (J. Organometal. Chem. 164 [1979] 317/27).Google Scholar
  220. [1]
    Ethyl Corporation, R. D. Gorsich (U.S. 2952697 [1958/60]).Google Scholar
  221. [2]
    National Lead Company, D. Kaufman (U.S. 2922803 [1958/60]).Google Scholar
  222. [3]
    P. Corradini, G. Allegra (J. Am. Chem. Soc. 81 [1959] 5510).Google Scholar
  223. [4]
    Ethyl Corporation, R. D. Gorsich (U.S. 3072691 [1959/63]).Google Scholar
  224. [5]
    L Porri, private communication from P. Corradini, G. Allegra (J. Am. Chem. Soc. 81 [1959] 5510).Google Scholar
  225. [6]
    R. D. Gorsich (J. Am. Chem. Soc. 82 [1960] 4211/4).Google Scholar
  226. [7]
    L. Porri, P. Corradini, D. Morero, G. Allegra (Chim. Ind. [Milan] 42 [1960] 487).Google Scholar
  227. [8]
    G. Allegra, P. Ganis, L. Porri, P. Corredini (Atti Accad. Nazi. Lincei Classe Sci. Fis. Mat. Nat. Rend. [8] 30 [1961] 44/52).Google Scholar
  228. [9]
    A. N. Nesmeyanov, O. V. Nogina, A. M. Berlin, A. S. Girshovich, G. V. Shatalov (Izv. Akad. Nauk SSSR Otd. Khim. Nauk 1961 2146/51; Bull. Acad. Sci. USSR Div. Chem. Sci. 1961 2008/12).Google Scholar
  229. [10]
    G. Allegra, P. Ganis (Atti Accad. Nazi. Lincei Rend. Classe Sci. Fis. Mat. Nat. Rend. [8] 33 [1962] 438/49).Google Scholar
  230. [11]
    A. N. Nesmeyanov, E. I. Fedin, P. V. Petrovskii, V. A. Dubovitskii, 0. V. Nogina, N. A. Lazareva (Dokl. Akad. Nauk SSSR 163 [1965] 659/62Google Scholar
  231. [11]
    A. N. Nesmeyanov, E. I. Fedin, P. V. Petrovskii, V. A. Dubovitskii, 0. V. Nogina, N. A. Lazareva Dokl. Chem. Proc. Acad. Sci. USSR 163 [1965] 704/7).Google Scholar
  232. [12]
    R. J. H. Clark (The Chemistry of Titanium and Vanadium, Amsterdam 1968, p. 225).Google Scholar
  233. [13]
    A. N. Nesmeyanov, O. V. Nogina, V. A. Dubovitskii (Izv. Akad. Nauk SSSR Ser. Khim. 1968 527/34; Bull. Acad. Sci. USSR Div. Chem. Sci. 1968 514/20).Google Scholar
  234. [14]
    E. Samuel (J. Organometal. Chem. 19 [1969] 87/91).Google Scholar
  235. [15]
    R. S. P. Coutts, R. L. Martin, P. C. Wailes (Inorg. Nuci. Chem. Letters 9 [1973] 49/52).Google Scholar
  236. [16]
    R. S. P. Coutts, P. C. Wailes, R. L Martin (J. Organometal. Chem. 50 [1973] 145/51).Google Scholar
  237. [17]
    U. Thewalt, D. Schomburg (J. Organometal. Chem. 127 [1977] 169/74).Google Scholar
  238. [18]
    R. Choukroun, D. Gervais (J. Chem. Soc. Dalton Trans. 1980 1800/2).Google Scholar
  239. [19]
    K. Döppert, R. Sanchez (J. Organometal. Chem. 210 [1980] C9/C10).Google Scholar
  240. [20]
    J. C. Huffman, K. G. Moloy, J. A. Marsella, K. G. Caulton (J. Am. Chem. Soc. 102 [1980] 3009/14).Google Scholar
  241. [21]
    J. A. Marsella, K. G. Moloy, K. G. Caulton (J. Organometal. Chem. 201 [1980] 389/98).Google Scholar
  242. [22]
    S. Gambarotta, C. Floriani, A. Chiesi-Villa, C. Guastini (J. Chem. Soc. Chem. Commun. 1982 1015/7).Google Scholar
  243. [23]
    S. Gambarotta, C. Floriani, A. Chiesi-Villa, C. Guastini (J. Am. Chem. Soc. 105 [1983] 7295/301).Google Scholar
  244. [24]
    R. K. Tuli, K. Chandra, R. K. Sharma, B. S. Garg (J. Indian Chem. Soc. 60 [1983] 813/6).Google Scholar
  245. [25]
    C. T. Vroegop, J. H. Teuben, F. van Bolhuis, J. G. M. van der Linden (J. Chem. Soc. Chem. Commun. 1983 550/2).Google Scholar
  246. [26]
    G. J. Erskine, G. J. B. Hurst, E. L. Weinberg, B. K. Hunter, J. D. McCowan (J. Organometal. Chem. 267 [1984] 265/9).Google Scholar
  247. [27]
    G. Fochi, C. Floriani (J. Chem. Soc. Dalton Trans. 1984 2577/80).Google Scholar
  248. [28]
    E. M. R. Kiremire, G. J. Leigh, J.R. Dilworth, R. A. Henderson (Inorg. Chim. Acta 83 [1984] L83/L85).Google Scholar
  249. [29]
    C. T. Jekel-Vroegop, J. H. Teuben (J. Organometal. Chem. 286 [1985] 309/15).Google Scholar
  250. [30]
    J. A. Marsella, K. G. Moloy, K. G. Caulton (J. Organometal. Chem. 201 [1980] 389/98).Google Scholar
  251. [31]
    A. Dormond, T. Kolavudh, J. Tirouflet (J. Organometal. Chem. 164 [1979] 317/27).Google Scholar
  252. [32]
    H. Köpf, S. Grabowski (Z. Anorg. Allgem. Chem. 496 [1983] 167/74).Google Scholar
  253. [33]
    A. Roth, C. Floriani, A. Chiesi-Villa, C. Guastini (J. Am. Chem. Soc. 108 [1986] 6823/5).Google Scholar
  254. [34]
    J. R. Dilworth, I. A. Latham, G. J. Leigh, G. Huttner, I. Jibril (J. Chem. Soc. Chem. Commun. 1983 1368/70).Google Scholar
  255. [35]
    D. L. Hughes, I. A. Latham, G. J. Leigh (J. Chem. Soc. Dalton Trans. 1986 393/8).Google Scholar
  256. [36]
    S. Gambarotta, C. Floriani, A. Chiesi-Villa, C. Guastini (Organometallics5 [1986] 2425/33).Google Scholar
  257. [37]
    R. Hemmer, U. Thewalt, D. L. Hughes, E. J. Leigh, D. G. Walker (J. Organometal. Chem. 323 [1987] C29/C32).Google Scholar
  258. [38]
    O. J. Scherer, H. Swarowsky, G. Wolmershäuser, W. Kaim, S. Kohlmann (Angew. Chem. 99 [1987] 1178/9).Google Scholar
  259. [39]
    E. J. M. de Boer, J. de With (J. Organometal. Chem. 320 [1987] 289/93).Google Scholar
  260. [40]
    E. C. Alyea, A. Malek (Inorg. Nuci. Chem. Letters 13 [1977] 587/90).Google Scholar
  261. [41]
    Y. Singh, R. Sharan, R. N. Kapoor (Transition Metal Chem. [Weinheim] 12 [1987] 335/8).Google Scholar
  262. [1]
    F. W. van der Weij, J. H. Teuben (J. Organometal. Chem. 120 [1976] 223/8).Google Scholar
  263. [2]
    C. T. Vroegop, J. H. Teuben, F. van Bolhuis, J. G. M. van der Linden (J. Chem. Soc. Chem. Commun. 1983 550/2).Google Scholar
  264. [3]
    S. G. Blanco, M. P. G. Sal, S. M. Carreras, M. Mena, P. Royo, R. Serrano (J. Chem. Soc. Chem. Commun. 1986 1572/3).Google Scholar
  265. [1]
    C. Floriani, G. Fachinetti (J. Chem. Soc. Dalton Trans. 1973 1954/7).Google Scholar
  266. [2]
    K. C. Ott (Diss. California Inst. Technol. 1983, pp. 1/130; Diss. Abstr. Intern. B 43 [1983] 2906).Google Scholar
  267. [3]
    P. B. Mackenzie, K. C. Ott, R. H. Grubbs (Pure Appi. Chem. 56 [1984] 59/61).Google Scholar
  268. [4]
    G. A. Zank, T. B. Rauchfuss, S. R. Wilson (J. Am. Chem. Soc. 106 [1984] 7621/3).Google Scholar
  269. [5]
    K. C. Ott. E. J. M. deBoer, R. H. Grubbs (Organometallics 3 [1984] 223/30).Google Scholar
  270. [1]
    L G. Guggenberger, F. N. Tebbe (J. Am. Chem. Soc. 93 [1971] 5924/5).Google Scholar
  271. [2]
    R. Hoxmeier, D. Deubzer, H. D. Kaesz (J. Am. Chem. Soc. 93 [1971] 536/7).Google Scholar
  272. [3]
    R. H. Marvich, H. H. Brintzinger (J. Am. Chem. Soc. 93 [1971] 2046/8).Google Scholar
  273. [4]
    F. N. Tebbe, G. W. Parshall (J. Am. Chem. Soc. 93 [1971] 3793/5).Google Scholar
  274. [5]
    E. E. van Tamelen, H. Rudier, C. Bjorklund (J. Am. Chem. Soc. 93 [1971] 7113/4).Google Scholar
  275. [6]
    J. E. Bercaw, R. H. Marvich, L. G. Bell, H. H. Brintzinger (J. Am. Chem. Soc. 94 [1972] 1219/38).Google Scholar
  276. [7]
    E. E. van Tamelen, W. Cretney, N. Klaentschi, J. S. Miller (J. Chem. Soc. Chem. Commun. 1972 481/2).Google Scholar
  277. [8]
    E. E. van Tamelen (24th Intern. Congress Pure Appi. Chem., Hamburg 1973 [1974], Vol. 2, pp. 167/90).Google Scholar
  278. [9]
    E. E. van Tamelen, J. A. Gladysz (J. Am. Chem. Soc. 96 [1974] 5290/1).Google Scholar
  279. [10]
    F. Bottomley, H. H. Brintzinger (J. Chem. Soc. Chem. Commun. 1978 234/5).Google Scholar
  280. [11]
    M. Peng, C. H. Brubaker (Inorg. Chim. Acta 26 [1978] 231/5).Google Scholar
  281. [12]
    F. Bottomley, I. J. B. Lin, M. Mukaida (J. Am. Chem. Soc. 102 [1980] 5238/42).Google Scholar
  282. [13]
    F. Bottomley, I. J. B. Lin (J. Chem. Soc. Dalton Trans. 1981 271/5).Google Scholar
  283. [14]
    F. Bottomley, J. Darkwa, G. Egharevba, I. J. B. Lin, M. Mukaida, D. Paez, P. S. White (10th Intern. Conf. Organometal. Chem., Toronto 1981, p. 280).Google Scholar
  284. [15]
    G. P. Pez, J. N. Armor (Advan. Organometal. Chem. 19 [1981] 1/50).Google Scholar
  285. [16]
    C. T. Aitken, J. F. Harrod, E. Samuel (J. Am. Chem. Soc. 108 [1986] 4059/66).Google Scholar
  286. [17]
    W. E. Lindsell, R. A. Parr (Polyhedron 5 [1986] 1259/65).Google Scholar
  287. [18]
    J. S. Merola, K. S. Campo, R. A. Gentile, M. A. Modrick, S. Zentz (Organometallics 3 [1984] 334/7).Google Scholar
  288. [1]
    A. E. ShJlov, A. K. Shilova, E. F. Kvashina (Kinetika Kataliz 10 [1969] 1402Google Scholar
  289. [1]
    A. E. ShJlov, A. K. Shilova, E. F. Kvashina Kinet. Catal. [USSR] 10 [1969] 1164 from C.A. 72 [1970] No. 90599).Google Scholar
  290. [2]
    E. E. van Tamelen, R. B. Fechter, S. W. Schneller, G. Boche, R. H. Greeley, B. Akermark (J.Am. Chem. Soc. 91 [1969] 1551/2).Google Scholar
  291. [3]
    E.E. van Tamelen, D. Seeley, S. Schneller, H. Rudler, W. Cretney (J. Am. Chem. Soc. 92 [1970] 5251/3).Google Scholar
  292. [4]
    E. E. van Tamelen, H. Rudler (J. Am. Chem. Soc. 92 [1970] 5253/4).Google Scholar
  293. [5]
    E. E. van Tamelen (Accounts Chem. Res. 3 [1970] 361/7).Google Scholar
  294. [6]
    J. E. Bercaw, H. H. Brintzinger (J. Am. Chem. Soc. 93 [1971] 2045/6).Google Scholar
  295. [7]
    R. H. Marvich, H. H. Brintzinger (J. Am. Chem. Soc. 93 [1971] 2046/8).Google Scholar
  296. [8]
    A. E. Shilov, A. K. Shilova, E. F. Kvashina,T.A. Vorontsova(Chem. Commun. 1971 1590/1).Google Scholar
  297. [9]
    J. E. Bercaw, R. H. Marvich, L G. Bell, H. H. Brintzinger (J. Am. Chem. Soc. 94 [1972] 1219/38).Google Scholar
  298. [10]
    Yu. G. Borodko, I. N. Ivleva, L. M. Kachapina, S. I. Salienko, A. K. Shilova, A. E. Shilov (J. Chem. Soc. Chem. Commun. 1972 1178).Google Scholar
  299. [11]
    C. Ungurenasu, E. Streba (J. Inorg. Nuci. Chem. 34 [1972] 3753/8).Google Scholar
  300. [12]
    E. E. van Tamelen, W. Cretney, N. Klaentschi, J. S. Miller (J. Chem. Soc. Chem. Commun. 1972 481/2).Google Scholar
  301. [13]
    Yu. G. Borodko, I. N. Ivleva, L. M. Kachapina, E. F. Kvashina, A. K. Shilova, A. E. Shilov (J. Chem. Soc. Chem. Commun. 1973 169/70).Google Scholar
  302. [14]
    Yu. G. Borodko, I. N. Ivleva, L. M. Kachapina, S. I. Salienko, A. K. Shilova, A. E. Shilov (Zh. Strukt. Khim. 14 [1973] 1112/3Google Scholar
  303. [14a]
    Yu. G. Borodko, I. N. Ivleva, L. M. Kachapina, S. I. Salienko, A. K. Shilova, A. E. Shilov J. Struct. Chem. [USSR] 14 [1973] 1041/2).Google Scholar
  304. [15]
    I. N. Ivleva, A. K. Shilova, S. I. Salienko, Yu. G. Borodko (Dokl.Akad. NaukSSSR 213 [1973] 116/7Google Scholar
  305. [15a]
    I. N. Ivleva, A. K. Shilova, S. I. Salienko, Yu. G. Borodko Dokl. Chem. Proc. Acad. Sci. USSR 208/213 [1973] 930/1).Google Scholar
  306. [16]
    J. E. Bercaw, E. Rosenberg, J. D. Roberts (J. Am. Chem. Soc. 96 [1974] 612/4).Google Scholar
  307. [17]
    J. E. Bercaw (J. Am. Chem. Soc. 96 [1974] 5087/95).Google Scholar
  308. [18]
    J. X. McDermott, G. M. Whitesides (J. Am. Chem. Soc. 96 [1974] 947/8).Google Scholar
  309. [19]
    E. E. van Tamelen (24th Intern. Congress Pure Appi. Chem., Hamburg 1973 [1974], Vol. 2, pp. 167/90).Google Scholar
  310. [20]
    J. X. McDermott, M. E. Wilson, G. M. Whitesides (J. Am. Chem. Soc. 98 [1976] 6529/36).Google Scholar
  311. [21]
    S. Rummel, B. Bayerl, H. Johansen, B. Lorenz, M. Wahren (Z. Chem. [Leipzig] 16 [1976] 193/5).Google Scholar
  312. [22]
    R. D. Sanner, J. M. Manriquez, R. E. Marsh, J. E. Bercaw (J. Am. Chem. Soc. 98 [1976] 8351/7).Google Scholar
  313. [23]
    R. D. Sanner, D. M. Duggan, T. C. McKenzie, R. E. Marsh, J. E. Bercaw (J. Am. Chem. Soc. 98 [1976] 8358/65).Google Scholar
  314. [24]
    F. W. van der Weij, J. H. Teuben (J. Organometal. Chem. 105 [1976] 203/7).Google Scholar
  315. [25]
    J. M. Manriquez (Diss. California Inst. Technol. 1976; Diss. Abstr. Intern. B 38 [1977] 186).Google Scholar
  316. [26]
    F. W. van der Weij, H. Scholtens, J. H. Teuben (J. Organometal. Chem. 127 [1977] 299/304).Google Scholar
  317. [27]
    J. E. Bercaw (in: W. E. Newton, J. R. Pöstgate, C. Rodriguez-Barreco, Recent Developments in Nitrogen Fixation, Reduction of Molecular Nitrogen to Hydrazine at Titanium and Zirconium, London 1977, pp. 25/39).Google Scholar
  318. [28]
    J. M. Manriquez, D. R. McAlister, E. Rosenberg, A. M. Shiller, K. L. Williamson, S. I. Chan, J. E. Bercaw (J. Am. Chem. Soc. 100 [1978] 3078/83).Google Scholar
  319. [29]
    R. D. Sanner (Diss. California Inst. Technol. 1978; Diss. Abstr. Intern. B 38 [1978] 5369).Google Scholar
  320. [30]
    A. E. Shilov (in: R. F. W. Hardy, F. Bottomley, R. C. Burns, Dinitrogen Fixation in Solution in the Presence of Transition-Metal Complexes, in: A Treatise on Dinitrogen Fixation, New York 1979, pp. 31/108).Google Scholar
  321. [31]
    F. Bottomley, I. J. B. Lin, M. Mukaida (J. Am. Chem. Soc. 102 [1980] 5238/42).Google Scholar
  322. [32]
    S. A. Cohen, P. R. Auburn, J. E. Bercaw (J. Am. Chem. Soc. 105 [1983] 1136/43).Google Scholar
  323. [33]
    F. Bottomley, G. O. Egharevba, I. J. B. Lin, P. S. White (Organometallics 4 [1985] 550/3).Google Scholar
  324. [34]
    S. A. Cohen, G. E. Bercaw (Organometallics 4 [1985] 1006/14).Google Scholar
  325. [1]
    F. Calderazzo, J. J. Salzmann, P. Mosimann (Inorg. Chim. Acta 1 [1967] 65/7).Google Scholar
  326. [2]
    P. C. Wailes, H. Weigold (unpublished results from R. S. P. Coutts, P. C. Wailes, Advan. Organometal. Chem. 9 [1970] 135/93; 177/9).Google Scholar
  327. [3]
    J. E. Bercaw, R. H. Marvich, L G. Bell, H. H. Brintzinger (J. Am. Chem. Soc. 94 [1972] 1219/38).Google Scholar
  328. [4]
    M. Peng, C. H. Brubaker (Inorg. Chim. Acta 26 [1978] 231/5).Google Scholar
  329. [5]
    F. Bottomley, I. J. B. Lin, M. Mukaida (J. Am. Chem. Soc. 102 [1980] 5238/42).Google Scholar
  330. [6]
    F. Bottomley, J. Darkwa, G. Egharevba, I. J. B. Lin, M. Mukaida, D. Paez, P. S. White (10th Intern. Conf. Organometal. Chem., Toronto 1981, p. 280).Google Scholar
  331. [7]
    F. Bottomley, I. J. B. Lin (J. Chem. Soc. Dalton Trans. 1981 271/5).Google Scholar
  332. [1]
    G. Henrici-Olivé, S. Olive (Angew. Chem. 80 [1968] 398/9Google Scholar
  333. [1a]
    G. Henrici-Olivé, S. Olive Angew. Chem Intern. Ed. Engt. 7 [1968] 386/7).Google Scholar
  334. [2]
    G. Henrici-Olivé, S. Olive (Angew. Chem. 81 [1969] 679/90Google Scholar
  335. [2a]
    G. Henrici-Olivé, S. Olive Angew. Chem. Intern. Ed. Engl. 8 [1969] 650/9).Google Scholar
  336. [3]
    E. E. van Tamelen, D. Seeley, S. Schneller, H. Rudler, W. Cretney (J. Am. Chem. Soc. 92 [1970] 5251/3).Google Scholar
  337. [4]
    R. G. Doisneau, J.-C. Marchon (J. Electroanal. Chem. Interfacial Electrochem. 30 [1971] 487/98).Google Scholar
  338. [5]
    C. Ungurenasu, E. Streba (J. Inorg. Nuci. Chem. 34 [1972] 3753/8).Google Scholar
  339. [6]
    Allied Chemical Corporation, J. N. Armor, G. P. Pez (U.S. 4046790 [1976/77]).Google Scholar
  340. [7]
    J. N. Armor (Inorg. Chem. 17 [1978] 203/13).Google Scholar
  341. [8]
    J. N. Armor (Inorg. Chem. 17 [1978] 213/8).Google Scholar
  342. [9]
    Yu. G. Borodko, I. N. Ivleva, L M. Kachapina, E. F. Kvashina, A. K. Shilova, A. E. Shilov (J. Chem. Soc. Chem. Commun. 1973 169/70).Google Scholar
  343. [10]
    I. N. Ivleva, A. K. Shilova, S. I. Salienko, Yu. G. Borod’ko (Dokl. Akad. Nauk. SSSR 213 [1973] 116/7Google Scholar
  344. [10]
    I. N. Ivleva, A. K. Shilova, S. I. Salienko, Yu. G. Borod’ko Dokl. Chem. Proc. Acad. Sci. USSR 208/213 [1973] 930/1).Google Scholar
  345. [11]
    E. B. Lobkovskii.G.L Soloveichik, A. I. Sizov, B. M. Bulychev(J. Organometal. Chem. 280 [1985] 53/66).Google Scholar
  346. [1]
    K. Clauss, H. Bestiari (Liebigs Ann. Chem. 654 [1962] 8/19).Google Scholar
  347. [2]
    J. E. Bercaw, H. H. Brintzinger (J. Am. Chem. Soc. 91 [1969] 7301/6).Google Scholar
  348. [3]
    J. E. Bercaw, R. H. Marvich, L G. Bell, H. H. Brintzinger (J. Am. Chem. Soc. 94 [1972] 1219/38).Google Scholar
  349. [4]
    G. Henrici-Olivé, S. Olive (Angew. Chem. 81 [1969] 679/90Google Scholar
  350. [4a]
    G. Henrici-Olivé, S. Olive Angew. Chem. Intern. Ed. Engl. 8 [1969] 650/9).Google Scholar
  351. [5]
    F. A. Shmidt, N. M. Ryntina, V. V. Saraev, V. A. Gruznykh, V. A. Makarov (React. Kinet. Catal. Letters 5 [1976] 101/6).Google Scholar
  352. [6]
    V. V. Saraev, F. K. Shmidt, N. M. Ryutina, V. A. Makarov, V. A. Gruznykh (Koord. Khim. 3 [1977] 1364/72Google Scholar
  353. [6a]
    V. V. Saraev, F. K. Shmidt, N. M. Ryutina, V. A. Makarov, V. A. Gruznykh Soviet J. Coord. Chem. 3 [1977] 1064/71).Google Scholar
  354. [7]
    G. J. Erskine, J. Hartgerink, E. L. Weinberg, J. D. McCowan (J. Organometal. Chem. 170 [1979] 51/61).Google Scholar
  355. [8]
    J. D. Ray (Diss. Michigan State Univ. 1978; Diss. Abstr. Intern. B 40 [1979] 1709).Google Scholar
  356. [9]
    H. Lehmkuhl, S. Fustero (Liebigs Ann. Chem. 1980 1353/60).Google Scholar
  357. [10]
    K. Mach, H. Antropiusova, V. Hanus, A. Dosedlova (Transition Metal Chem. [Weinheim] 5 [1980] 5/10).Google Scholar
  358. [11]
    F. Sato, H. Ishikawa, M. Sato (Tetrahedron Letters 21 [1980] 365/8).Google Scholar
  359. [12]
    F. Sato, T. Jinbo, M. Sato (Tetrahedron Letters 21 [1980] 2171/4).Google Scholar
  360. [13]
    F. Sato, T. Jinbo, M. Sato (Tetrahedron Letters 21 [1980] 2175/8).Google Scholar
  361. [14]
    H. Antropiusova, A. Dosedlova, V. Hanus, K. Mach (Transition Metal Chem. [Weinheim] 6 [1981] 90/3).Google Scholar
  362. [15]
    E. V. Evdokimova, B. M. Bulychev, G. L Soloveichik (Kinetika Kataliz 22 [1981] 170/6Google Scholar
  363. [15a]
    E. V. Evdokimova, B. M. Bulychev, G. L Soloveichik Kinet. Catal. [USSR] 22 [1981] 144/9).Google Scholar
  364. [16]
    F. Sato, H. Ishikawa, M. Sato (Tetahedron Letters 22 [1981] 85/8).Google Scholar
  365. [17]
    F. Sato, T. Jinbo, M. Sato (Synthesis 11 [1981] 871).Google Scholar
  366. [18]
    K. Mach, F. Turecek, V. Hanus, L. Petrusova, H. Antropiusova, A. Dosedlova, P. Sedmera (Chem. Zvesti 36 [1982] 191/200).Google Scholar
  367. [19]
    K. Mach, P. Sedmera, L. Petrusova, H. Antropiusova, V. Hanus, F. Turecek (Tetrahedron Letters 23 [1982] 1105/8).Google Scholar
  368. [20]
    M. Akita, H. Yasuda, K. Nagasuna, A. Nakamura (Bull. Chem. Soc. Japan 56 [1983] 554/8).Google Scholar
  369. [21]
    H. Lehmkuhl, E. Janssen, R. Schwickardi (J. Organometal. Chem. 258 [1983] 171/80).Google Scholar
  370. [22]
    H. Lehmkuhl, Y.-L Tsien, E. Janssen, R. Mynott (Chem. Ber. 116 [1983] 2426/36).Google Scholar
  371. [23]
    H. Lehmkuhl, Y.-L Tsien (Chem. Ber. 116 [1983] 2437/46).Google Scholar
  372. [24]
    K. Mach, H. Antropiusova (J. Organometal. Chem. 248 [1983] 287/98).Google Scholar
  373. [25]
    H. Schreer, H.-O. Fröhlich (Z. Chem. [Leipzig] 23 [1983] 347/8).Google Scholar
  374. [26]
    F. Sato (J. Organometal. Chem. 285 [1985] 53/64).Google Scholar
  375. [27]
    Q. Yanlong, L. Jiaqui, X. Weihua (J. Mol. Catal. 34 [1986] 31/8).Google Scholar
  376. [28]
    Q. Yanlong, Z. Junming, L. Jiaqi, H. Qichen, X. Weihua, C. Shoushan (J. Mol. Catal. 38 [1986] 331/5).Google Scholar
  377. [29]
    A. I. Sizov, I. V. Molodnitskaya, B. M. Bulychev, E. V. Evdokimova, G. L. Soloveichik, A. I. Gusev, E. B. Chuklanova, V. I. Andrianov (J. Organometal. Chem. 335 [1987] 323/30).Google Scholar
  378. [1]
    D. L. Denton (Diss. Ohio State Univ. 1973; Diss. Abstr. Intern. B 34 [1974] 3688).Google Scholar
  379. [2]
    O. Hollander, D. L. Denton, S. G. Shore (7th Intern. Conf. Organometal. Chem., Venice 1975, Abstr. No. 17).Google Scholar
  380. [1]
    G. Natta, G. Mazzanti, P. Corradini, U. Giannini, S. Cesca (Atti Accad. Nazi. Lincei Classe Sci. Fis. Mat. Nat. Rend. [8] 26 [1959] 150/4).Google Scholar
  381. [2]
    G. Natta, P. Corradini (Angew. Chem. 72 [1960] 39).Google Scholar
  382. [3]
    G. Natta, G. Mazzanti, U. Giannini, S. Cesca (Angew. Chem. 72 [1960] 39).Google Scholar
  383. [4]
    G. Natta, G. Mazzanti (Tetrahedron 8 [1960] 86/100).Google Scholar
  384. [5]
    Montecatini Società Generale per l’Industria Mineraria e Chimica, K. Ziegler, G. Natta, G. Mazzanti, U. Giannini, S. Cesca (Ger. 1105416 [1959/61]).Google Scholar
  385. [6]
    P. Corradini, A. Sirigu (Inorg. Chem. 6 [1967] 601/5).Google Scholar
  386. [7]
    P. C. Wailes, H. Weigold (J. Organometal. Chem. 24 [1970] 713/5).Google Scholar
  387. [8]
    P. C. Wailes, H. Weigold (unpublished from R. S. P. Coutts, P. C. Wailes, Advan. Organometal. Chem. 9 [1970] 135/93, 177).Google Scholar
  388. [9]
    F. N. Tebbe, L. J. Guggenberger (J. Chem. Soc. Chem. Commun. 1973 227/8).Google Scholar
  389. [10]
    L. J. Guggenberger (6th Intern. Conf. Organometal. Chem., Amherst, Mass., 1973, Abstr. P74).Google Scholar
  390. [11]
    L. J. Guggenberger, F. N. Tebbe (J. Am. Chem. Soc. 95 [1973] 7870/2).Google Scholar
  391. [12]
    B. M. Bulychev (Izv. Akad. Nauk SSSR Neorgan. Material 14 [1978] 1735/40Google Scholar
  392. [12]
    B. M. Bulychev Inorg. Materials [USSR] 14 [1978] 1350/5).Google Scholar
  393. [13]
    B. M. Bulychev, S. E. Tokareva, G. L. Soloveichik, E. V. Evdokimova (J. Organometal. Chem. 179 [1979] 263/73).Google Scholar
  394. [14]
    S. E. Tokareva, V. I. Pergushov, A. L. Kostenko, B. M. Bulychev (Dokl. Akad. Nauk SSSR 246 [1979] 1384/7;Google Scholar
  395. [14]
    S. E. Tokareva, V. I. Pergushov, A. L. Kostenko, B. M. Bulychev Dokl. Chem. Proc. Acad. Sci. USSR 244/249 [1979] 324/7).Google Scholar
  396. [15]
    B. M. Bulychev, A. L. Kostenko, G. L. Soloveichik, V. B. Polyakova (Transition Metal Chem. [Weinheim] 6 [1981] 240/6).Google Scholar
  397. [16]
    E. V. Evdokimova, B. M. Bulychev, G. L Soloveichik (Kinetika Kataliz 22 [1981] 170/6Google Scholar
  398. [16]
    E. V. Evdokimova, B. M. Bulychev, G. L Soloveichik Kinet. Catal. [USSR] 22 [1981] 144/9).Google Scholar
  399. [17]
    B. M. Bulichev, E. V. Evdokimova, A. I. Sizov, G. L. Soloveichik (J. Organometal. Chem. 239 [1982] 313/20).Google Scholar
  400. [18]
    E. V. Evdokimova, G. L Soloveichik, B. M. Bulychev (Kinetika Kataliz 23 [1982] 1109/13Google Scholar
  401. [18]
    E. V. Evdokimova, G. L Soloveichik, B. M. Bulychev Kinet. Catal. [USSR] 23 [1982] 943/53).Google Scholar
  402. [19]
    E. B. Lobkovskii, G. L. Soloveichik, A. I. Sisov, B. M. Bulychev, A. I. Gusev, N. I. Kirillova (J. Organometal. Chem. 265 [1984] 167/73).Google Scholar
  403. [20]
    K. Mach, H. Antropiusova, V. Hanus, F. Turecek, P. Sedmera (J. Organometal. Chem. 269 [1984] 39/52).Google Scholar
  404. [21]
    K. Mach, H. Antropiusova, V. Hanus (Transition Metal Chem. [Weinheim] 10 [1985] 302/7).Google Scholar
  405. [22]
    V. K. Bel’sky, A. I. Sizov, B. M. Bulychev, G. L. Soloveichik (J. Organometal. Chem. 280 [1985] 67/80).Google Scholar
  406. [23]
    V. K. Bel’skii, A. I. Sizov, B. M. Bulychev, G. L. Soloveichik (Koord. Khim. 11 [1985] 1003/6).Google Scholar
  407. [24]
    E.B. Lobkovskii, G.L Soloveichik, A. I. Sizov, B.M. Bulychev (J. Organometal. Chem. 280 [1985] 53/66).Google Scholar
  408. [25]
    A. I. Sizov, G. L. Soloveichik, B. M. Bulychev (Koord. Khim. 11 [1985] 339/45Google Scholar
  409. [25a]
    A. I. Sizov, G. L. Soloveichik, B. M. Bulychev Soviet J. Coord. Chem. 11 [1985] 183/9).Google Scholar
  410. [26]
    A. I. Sizov, I. V. Molodnitskaya, B. M. Bulychev, E. V. Evdokimova, G. L. Soloveichik, A. I. Gusev, E. B. Chuklanova, V. I. Andrianov (J. Organo metal. Chem. 335 [1987] 323/30).Google Scholar
  411. [27]
    E. B. Lobkovskii, A. I. Sizov, B. M. Bulychev, I. V. Sokolova, G. L. Soloveichik (J. Organo-metal. Chem. 319 [1987] 69/75).Google Scholar
  412. [28]
    B. M. Bulychev, E. V. Evdokimova (U.S.S.R. 899519 [1980/82] from CA. 97 [1986] No. 109604).Google Scholar
  413. [1]
    C. T. Aitken, J. F. Harrod, E. Samuel (J. Am. Chem. Soc. 108 [1986] 4059/66).Google Scholar
  414. [2]
    J. F. Harrod, S. S. Yun (Organometallics 6 [1987] 1381/7).Google Scholar
  415. [1]
    Union Carbide Corp., J. C. Brantley (U.S. 2983741 [1953/61]).Google Scholar
  416. [2]
    Union Carbide Corp., M. A. Lynch, J. C. Brantley (Brit. 785760 [1953/57]).Google Scholar
  417. [3]
    J. M. Birmingham, A. K. Fischer, G. Wilkinson (Naturwissenschaften 42 [1955] 96).Google Scholar
  418. [4]
    Hercules Powder Co., D. S. Breslow (U.S. 2827446 [1955/58]).Google Scholar
  419. [5]
    National Lead Co., D. F. Herman, D. Simone, R. M. Weil (U.S. 3114737 [1958/63]).Google Scholar
  420. [6]
    Montecatini Società Generale per l’Industria Mineraria e Chimica (Brit. 900615 [1958/62]).Google Scholar
  421. [7]
    G. Natta, P. Pino, G. Mazzanti, U. Giannini (J. Inorg. Nuci. Chem. 8 [1958] 612/9).Google Scholar
  422. [8]
    Montecatini Società Generale per l’Industria Mineraria e Chimica, G. Natta, G. Mazzanti, U.Giannini (Ger. 1084918 [1958/60]).Google Scholar
  423. [9]
    National Lead Co., D. Simone, D. F. Herman (U.S. 3037004 [1958/62]).Google Scholar
  424. [10]
    D. S. Breslow, N. R. Newburg (J. Am. Chem. Soc. 81 [1959] 81/6).Google Scholar
  425. [11]
    G. Natta, G. Mazzanti, P. Corradini, U. Giannini, S. Cesca (Atti Accad. Nazi. Lincei Classe Sci. Fis. Mat. Nat. Rend. [8] 26 [1959] 150/4).Google Scholar
  426. [12]
    G. Natta, G. Dall’asta, G. Mazzanti, U. Giannini, S. Cesca(Angew. Chem. 71 [1959] 205/10).Google Scholar
  427. [13]
    P. Pino, G. Mazzanti, U. Giannini, S. Cesca (Atti Accad. Nazi. Lincei Classe Sci. Fis. Mat. Nat. Rend. [8] 27 [1959] 392/6).Google Scholar
  428. [14]
    National Lead Co., D. Simone, D. F. Herman (U.S. 3053817 [1959/62]).Google Scholar
  429. [15]
    D. S. Breslow, W. P. Long, N. R. Newburg (Rubber Plast. Age 41 [1960] 155/60).Google Scholar
  430. [16]
    W. P. Long, D. S. Breslow (J. Am. Chem. Soc. 82 [1960] 1953/7).Google Scholar
  431. [17]
    G. Natta, G. Mazzanti, U. Giannini, S. Cesca (Angew. Chem. 72 [1960] 39).Google Scholar
  432. [18]
    G. Natta, G. Mazzanti (Tetrahedron 8 [1960] 86/100).Google Scholar
  433. [19]
    H. Nöth, J. Voitländer, M. Nussbaum (Naturwissenschaften 47 [1960] 57).Google Scholar
  434. [20]
    H. Nöth, R. Hartwimmer (Chem. Ber. 93 [1960] 2238/45).Google Scholar
  435. [21]
    H. Nöth, R. Hartwimmer (Chem. Ber. 93 [1960] 2246/51).Google Scholar
  436. [22]
    BASF A.-G., G. Hamprecht, L. Taglinger (Ger. 1153749 [1961/63]).Google Scholar
  437. [23]
    Montecatini Società Generale per l’Industria Mineraria e Chimica, K. Ziegler, G. Natta, G. Mazzanti, U. Giannini, S. Cesca (Ger. 1105416 [1959/61]).Google Scholar
  438. [24]
    S. S. Batsanov (Izv. Sibirsk. Otd. Akad. Nauk SSSR 1962 No. 8, pp. 110/3 from CA. 58 [1963] 4039).Google Scholar
  439. [25]
    K. Clauss, H. Bestian (Liebigs Ann. Chem. 654 [1962] 8/19).Google Scholar
  440. [26]
    W. Marconi, M. L. Santostasi, M. De Malde (Chim. Ind. [Milan] 44 [1962] 229/34).Google Scholar
  441. [27]
    L. J. Baye (Diss. Univ. Texas 1963; Diss. Abstr. 24 [1964] 3968).Google Scholar
  442. [28]
    H. P. Fritz (Advan. Organometal. Chem. 1 [1964] 239/316).Google Scholar
  443. [29]
    S. A. Giddings (Inorg. Chem. 5 [1964] 684/7).Google Scholar
  444. [30]
    H. A. Martin, F. Jellinek (Angew. Chem. 76 [1964] 274;Google Scholar
  445. [30a]
    H. A. Martin, F. Jellinek Angew. Chem. Intern. Ed. Engl. 3 [1964] 311).Google Scholar
  446. [31]
    A. F. Reid, P. C. Wailes (Australian 290 355 [1964/66]).Google Scholar
  447. [32]
    A. F. Reid, D. E. Scaife, P. C. Wailes (Spectrochim. Acta 20 [1964] 1257/68).Google Scholar
  448. [33]
    G. W. Watt, L. J. Baye (J. Inorg. Nuci. Chem. 26 [1964] 2099/102).Google Scholar
  449. [34]
    R. L. Martin, G. Winter (J. Chem. Soc. 1965 4709/14).Google Scholar
  450. [35]
    A. F. Reid, P. C. Wailes (Australian J. Chem. 18 [1965] 9/13).Google Scholar
  451. [36]
    H. Brintzinger (J. Am. Chem. Soc. 88 [1966] 4305/7).Google Scholar
  452. [37]
    R. S. P. Coutts, J. R. Surtees (Australian J. Chem. 19 [1966] 387/92).Google Scholar
  453. [38]
    R. S. P. Coutts, J. R. Surtees, J. M. Swan, P. C. Wailes (Australian J. Chem. 19 [1966] 1377/80).Google Scholar
  454. [39]
    R. E. Dessy, R. B. King, M. Waldrop (J. Am. Chem. Soc. 88 [1966] 5112/7).Google Scholar
  455. [40]
    K. Issleib, H. Häckert (Z. Naturforsch. 21b [1966] 519/21).Google Scholar
  456. [41]
    A. F. Reid, P. C. Wailes (Australian J. Chem. 19 [1966] 309/12).Google Scholar
  457. [42]
    A. F. Reid, P. C. Wailes (Inorg. Chem. 5 [1966] 1213/6).Google Scholar
  458. [43]
    G. S. Shvindlerman, T. G. Golenko, L I. Red’kina (Izv. Akad. Nauk SSSR Ser. Khim. 1966 158/60; Bull. Acad. Sci. USSR Div. Chem. Sci. 1966 136/8).Google Scholar
  459. [44]
    H. H. Brintzinger (J. Am. Chem. Soc. 89 [1967] 6871/6).Google Scholar
  460. [45]
    R. Coutts, P. C. Wailes (Inorg. Nuci. Chem. Letters 3 [1967] 1/5).Google Scholar
  461. [46]
    R. S. P. Coutts, P. C. Wailes (Australian J. Chem. 20 [1967] 1579/85).Google Scholar
  462. [47]
    H. A. Martin (Diss. Univ. Groningen 1967 from R. B. Helmholdt, F. Jellinek, H. A. Martin, A. Vos, Reci. Trav. Chim. 86 [1967] 1263/74).Google Scholar
  463. [48]
    H. A. Martin, F. Jellinek (J. Organometal. Chem. 8 [1967] 115/28).Google Scholar
  464. [49]
    J.-J. Salzmann, P. Mosimann (Helv. Chim. Acta 50 [1967] 1831/6).Google Scholar
  465. [50]
    S. Valcher, M. Mastragostino (J. Electroanal. Chem. Interfacial Electrochem. 14 [1967] 219/26).Google Scholar
  466. [51]
    Phillips Petroleum Co., D. W. Walker, E. L. Czenkusch (U.S. 3545930 [1967/70]).Google Scholar
  467. [52]
    A. J. Canty, R. S. P. Coutts, P. C. Wailes (Australian J. Chem. 21 [1968] 807/10).Google Scholar
  468. [53]
    R. S. P. Coutts, P. C. Wailes (Chem. Commun. 1968 260).Google Scholar
  469. [54]
    R. S. P. Coutts, P. C. Wailes (Australian J. Chem. 21 [1968] 373/7).Google Scholar
  470. [55]
    R. S. P. Coutts, P. C. Wailes (Australian J. Chem. 21 [1968] 1181/6).Google Scholar
  471. [56]
    R. S. P. Coutts, P. C. Wailes (Australian J. Chem. 21 [1968] 2199/202).Google Scholar
  472. [57]
    H. A. Martin, F. Jellinek (J. Organometal. Chem. 12 [1968] 149/61).Google Scholar
  473. [58]
    Y. Nozawa, M. Takeda (Kogyo Kagaku Zasshi 71 [1968] 189/93 from CA. 69 [1968] No. 48121).Google Scholar
  474. [59]
    I. J. Alexander, J. N. Hay, J. C Robb (Brit. Polym. J. 1 [1969] 285/9).Google Scholar
  475. [60]
    A. J. Amass, J. N. Hay, J. C. Robb (Brit. Polym. J. 1 [1969] 273/6).Google Scholar
  476. [61]
    E. Bayer, V. Schurig (Chem. Ber. 102 [1969] 3378/90).Google Scholar
  477. [62]
    R. S. P. Coutts, B. Kautzner, P. C. Wailes (Australian J. Chem. 22 [1969] 1137/41).Google Scholar
  478. [63]
    S. P. Gubin, S. A. Smirnova (J. Organometal. Chem. 20 [1969] 229/40).Google Scholar
  479. [64]
    G. Henrici-Olivé, S. Olive (Makromol. Chem. 121 [1969] 70/4).Google Scholar
  480. [65]
    K. Issleib, G. Bätz (Z. Anorg. Allgem. Chem. 369 [1969] 83/8).Google Scholar
  481. [66]
    Toray Industries, Inc., Y. Nishino, A. Miyaké (Japan. 73/04035 [1969/73]; CA. 78 [1973] No. 147449).Google Scholar
  482. [67]
    F. W. Siegert, H. J. de Liefde Meijer (J. Organometal. Chem. 20 [1969] 141/5).Google Scholar
  483. [68]
    S. A. Smirnova, S. P. Gubin (Izv. Akad. Nauk SSSR Ser. Khim. 19691890/7; Bull. Acad. Sci. USSR Div. Chem. Sci. 1969 1750/6).Google Scholar
  484. [69]
    J. H. Teuben, H. J. de Liefde Meijer (J. Organometal. Chem. 17 [1969] 87/93).Google Scholar
  485. [70]
    R. S. P. Coutts, P. C. Wailes (Advan. Organometal. Chem. 9 [1970] 135/93).Google Scholar
  486. [71]
    R. S. P. Coutts, P. C. Wailes, J. V. Kingston (Australian J. Chem. 23 [1970] 463/8).Google Scholar
  487. [72]
    R. S. P. Coutts, P. C. Wailes, J. V. Kingston (Australian J. Chem. 23 [1970] 469/73).Google Scholar
  488. [73]
    G. Henrici-Olivé, S. Olive (J. Organometal. Chem. 23 [1970] 155/7).Google Scholar
  489. [74]
    B. Kautzner, P. C. Wailes (unpublished results from R. S. P. Coutts, P. C. Wailes, Advan. Organometal. Chem. 9 [1970] 135/93, 162).Google Scholar
  490. [75]
    J. G. Kenworthy, J. Myatt, P. F. Todd (J. Chem. Soc. B 1970 791/4).Google Scholar
  491. [76]
    M. E. Vol’pin, A. A. Belyi, V. B. Shur, Yu. I. Lyakhovetskii, R. V. Kudryavtsev, N. N. Bubnov (Dokl. Akad. Nauk SSSR 194 [1970] 577/9Google Scholar
  492. [76a]
    M. E. Vol’pin, A. A. Belyi, V. B. Shur, Yu. I. Lyakhovetskii, R. V. Kudryavtsev, N. N. Bubnov Dokl. Chem. Proc. Acad. Sci. USSR 190/195 [1970] 674/6).Google Scholar
  493. [77]
    R. S. P. Coutts, P. C. Wailes (Australian J. Chem. 24 [1971] 1075/8).Google Scholar
  494. [78]
    R. G. Doisneau, J.-C. Marchon (J. Electroanal. Chem. Interfacial Electrochem. 30 [1971] 487/98).Google Scholar
  495. [79]
    E. A. Fushman, E. D. Potyagailo, N. M. Chirkov (Izv. Akad. Nauk SSSR Ser. Khim. 1971 715/9; Bull. Acad. Sci. USSR Div. Chem. Sci. 1971 641/4).Google Scholar
  496. [80]
    J. G. Kenworthy, J. Myatt, M. C. R. Symons (J. Chem. Soc. A 1971 3428/30).Google Scholar
  497. [81]
    M. F. Lappert, A. R. Sanger (J. Chem. Soc. A 1971 874/7).Google Scholar
  498. [82]
    M. F. Lappert, A. R. Sanger (J. Chem. Soc. A 1971 1314/20).Google Scholar
  499. [83]
    P. Ye. Matkovskii, T. S. Dzhabiev, F. S. D’yachkovskii, G. A. Beikhol’d, Kh.-M. A. Briken-shtein, N. M. Chirkov (Vysokomol. Soedin. A 13 [1971] 1762/6Google Scholar
  500. [83a]
    P. Ye. Matkovskii, T. S. Dzhabiev, F. S. D’yachkovskii, G. A. Beikhol’d, Kh.-M. A. Briken-shtein, N. M. Chirkov Polym. Sci. [USSR] 13 [1971] 1981/6).Google Scholar
  501. [84]
    P. E. Matkovskii, T. I. Larkina, T. S. Dzhaviev, L. N. Russiyan, G. A. Beikhol’d, Kh.-M. A. Brikenshtein, N. M. Chirkov (Izv. Akad. Nauk SSSR Ser. Khim. 1971 2407/12; Bull. Acad. Sci. USSR Div. Chem. Sci. 1971 2287/91).Google Scholar
  502. [85]
    G. A. Razuvaev, G. A. Domrachev, O. N. Suvorova, L. G. Abakumova (J. Organometal. Chem. 32 [1971] 113/20).Google Scholar
  503. [86]
    W. J. Reagan, A. B. Burg (Inorg. Nuci. Chem. Letters 7 [1971] 741/3).Google Scholar
  504. [87]
    A. E. Shilov, A. K. Shilova, E. F. Kvashina, T. A. Vorontsova (Chem. Commun. 19711590/1).Google Scholar
  505. [88]
    J. H. Teuben, H. J. de Liefde Meijer (Reci. Trav. Chim. 90 [1971] 360/3).Google Scholar
  506. [89]
    J. H. Teuben, H.J. de Liefde Meijer (5th Intern. Conf. Organometal. Chem., Moscow 1971, Vol. 1, Abstr. 182).Google Scholar
  507. [90]
    J. A. Waters, V. V. Vickroy, G. A. Mortimer (J. Organometal. Chem. 33 [1971] 41/52).Google Scholar
  508. [91]
    J. E. Bercaw, R. H. Marvich, L G. Bell, H. H. Brintzinger (J. Am. Chem. Soc. 94 [1972] 1219/38).Google Scholar
  509. [92]
    Yu. G. Borodko, I. N. Ivleva, L M. Kachapina, S. I. Salienko, A. K. Shilova, A. E. Shilov (J. Chem. Soc. Chem. Commun. 1972 1178).Google Scholar
  510. [93]
    M. L. H. Green, C. R. Lucas (J. Chem. Soc. Dalton Trans. 1972 1000/3).Google Scholar
  511. [94]
    K. Kaeriyama, Y. Shimura (J. Polym. Sci. Polym. Chem. Ed. 10 [1972] 2833/40).Google Scholar
  512. [95]
    J.-C. Marchon, A. Barbosa (Anal. Letters 5 [1972] 897/904).Google Scholar
  513. [96]
    J.-C. Marchon, A. Barbosa (Compt. Rend. C 274 [1972] 1438/41).Google Scholar
  514. [97]
    G. A. Razuvaev, V. N. Latyaeva, L. I. Vyshinskaya, T. P. Denisova, Yu. P. Gorelov (Dokl. Akad. Nauk SSSR 202 [1972] 1090/2Google Scholar
  515. [97]
    G. A. Razuvaev, V. N. Latyaeva, L. I. Vyshinskaya, T. P. Denisova, Yu. P. Gorelov Dokl. Chem. Proc. Acad. Sci. USSR 202/207 [1972] 150/1).Google Scholar
  516. [98]
    J. H. Teuben, H. J. de Liefde Meijer (J. Organometal. Chem. 46 [1972] 313/21).Google Scholar
  517. [99]
    E. E. van Tamelen, W. Cretney, N. Klaentschi, J. S. Miller (J. Chem. Soc. Chem. Commun. 1972 481/2).Google Scholar
  518. [100]
    Yu. G. Borodko, I. N. Ivleva, L M. Kachapina, E. F. Kvashina, A. K. Shilova, A. E. Shilov (J. Chem. Soc. Chem. Commun. 1973 169/70).Google Scholar
  519. [101]
    Yu. G. Borod’ko, I. N. Ivleva, L. M. Kachapina, S. I. Salienko, A. K. Shilova, A. E. Shilov (Zh. Strukt. Khim. 14 [1973] 1112/3Google Scholar
  520. [101a]
    Yu. G. Borod’ko, I. N. Ivleva, L. M. Kachapina, S. I. Salienko, A. K. Shilova, A. E. Shilov J. Struct. Chem. [USSR] 14 [1973] 1041/2).Google Scholar
  521. [102]
    T. Chivers, E. D. Ibrahim (Can. J. Chem. 51 [1973] 815/20).Google Scholar
  522. [103]
    R. S. P. Coutts, P. C. Wailes, R. L Martin (J. Organometal. Chem. 47 [1973] 375/82).Google Scholar
  523. [104]
    R. S. P. Coutts, R. L. Martin, P. C. Wailes (Australian J. Chem. 26 [1973] 2101/4).Google Scholar
  524. [105]
    C. Floriani, G. Fachinetti (J. Chem. Soc. Dalton Trans. 1973 1954/7).Google Scholar
  525. [106]
    L. J. Guggenberger (6th Intern. Conf. Organometal. Chem., Amherst, Mass., 1973, Abstr. 74).Google Scholar
  526. [107]
    J.-C. Marchon (Ann. Agron. 24 [1973] 277/85).Google Scholar
  527. [108]
    P. Ye. Matkovskii, L. N. Russiyan, G. A. Beikhol’d, F. S. D’yachkovskii, T. I. Larkina, Kh.-M. A. Brikenshtein, N. M. Chirkov (Vysokomol. Soedin. A 15 [1973] 805/12Google Scholar
  528. [108]
    P. Ye. Matkovskii, L. N. Russiyan, G. A. Beikhol’d, F. S. D’yachkovskii, T. I. Larkina, Kh.-M. A. Brikenshtein, N. M. Chirkov Polym. Sci. [USSR] 15 [1973] 905/14).Google Scholar
  529. [109]
    J. H. Teuben (J. Organometal. Chem. 57 [1973] 159/67).Google Scholar
  530. [110]
    F. N. Tebbe, L. J. Guggenberger (J. Chem. Soc. Chem. Commun. 1973 227/8).Google Scholar
  531. [111]
    G. K. Barker, M. F. Lappert (J. Organometal. Chem. 76 [1974] C45/C46).Google Scholar
  532. [112]
    T. Chivers, E. D. Ibrahim (J. Organometal. Chem. 77 [1974] 241/6).Google Scholar
  533. [113]
    R. J. H. Clark, M. A. Coles (J. Chem. Soc. Dalton Trans. 1974 1462/7).Google Scholar
  534. [114]
    D. L. Denton (Diss. Ohio State Univ. 1973; Diss. Abstr. Intern. B 34 [1974] 3688).Google Scholar
  535. [115]
    C. J. Groenenboom, G. Sawatzky, H. J. de Liefde Meijer, F. Jellinek (J. Organometal. Chem. 76 [1974] C4/C6).Google Scholar
  536. [116]
    M. L. H. Green, C. R. Lucas (J. Organometal. Chem. 73 [1974] 259/64).Google Scholar
  537. [117]
    V. Kadlec, H. Kadlecova, O. Strouf (J. Organometal. Chem. 82 [1974] 113/9).Google Scholar
  538. [118]
    P. E. Matkovskii, L. Chernaya, F. S. D’yachkovskii, N. M. Chirkov (Zh. Obshch. Khim. 44 [1974] 542/9Google Scholar
  539. [118]
    P. E. Matkovskii, L. Chernaya, F. S. D’yachkovskii, N. M. Chirkov J. Gen. Chem. [USSR] 44 [1974] 520/5).Google Scholar
  540. [119]
    V. V. Saraev, G. M. Larin, F. K. Shmidt, V. G. Lipovich (Izv. Akad. Nauk SSSR Ser. Khim. 1974 928/31; Bull. Acad. Sci. USSR Div. Chem. Sci. 1974 896/8).Google Scholar
  541. [120]
    K. N. Semenenko, B. M. Bulychev, G. L. Soloveichik(U.S.S.R. 505649 [1974/76]; C.A. 85 [1976] No. 143303).Google Scholar
  542. [121]
    E. E. van Tamelen (24th Intern. Congr. Pure Appi. Chem., Hamburg 1973 [1974], Vol. 2, Abstr. pp. 167/90).Google Scholar
  543. [122]
    E. Vitz, C. H. Brubaker (J. Organometal. Chem. 84 [1974] C16/C18).Google Scholar
  544. [123]
    P. C. Wailes (J. Organometal. Chem. 79 [1974] 201/22, 206/7).Google Scholar
  545. [124]
    J. A. Waters, G. A. Mortimer (J. Organometal. Chem. 77 [1974] 231/40).Google Scholar
  546. [125]
    D. Ytsma, J. G. Hartsuiker, J. H. Teuben (J. Organometal. Chem. 74 [1974] 239/44).Google Scholar
  547. [126]
    D. G. H. Ballard, R. Pearce (J. Chem. Soc. Chem. Commun. 1975 621).Google Scholar
  548. [127]
    B. Demerseman, G. Bouquet, M. Bigorgne (J. Organometal. Chem. 93 [1975] 199/204).Google Scholar
  549. [128]
    T. S. Dzhabiev, F. S. D’yachkovskii, L I. Chernaya (Izv. Akad. NaukSSSRSer. Khim. 1975 1091/5; Bull. Acad. Sci. USSR Div. Chem. Sci. 1975 1000/3).Google Scholar
  550. [129]
    L. E. Manzer (J. Organometal. Chem. 102 [1975] 167/74).Google Scholar
  551. [130]
    G. A. Razuvaev, V. N. Latyaeva, L. I. Vishinskaya, V. T. Bytchkov, G. A. Vasilyeva (J. Organometal. Chem. 87 [1975] 93/9).Google Scholar
  552. [131]
    D. G. Sekutowski, G. D. Stucky (Inorg. Chem. 14 [1975] 2192/9).Google Scholar
  553. [132]
    G. L. Soloveichik, A. P. Savchenkova, B. M. Bulychev, K. N. Semenenko (Tezisy Dokl. 12th Vses. ChugaevskoeSoveshch. Khim. Kompleksn. Soedin., Novosibirsk 1975, Vol. 3, p. 466 from CA. 86 [1977] No. 5574).Google Scholar
  554. [133]
    E. W. Vitz (Diss. Michigan State Univ. 1975; Diss. Abstr. Intern. B 36 [1975] 1212).Google Scholar
  555. [134]
    M. Vliek, C. J. Groenenboom, H. J. de Liefde Meijer, F. Jellinek (J. Organometal. Chem. 97 [1975] 67/71).Google Scholar
  556. [135]
    R. Allmann, V. Bätzel, R. Pfeil, G. Schmid (Z. Naturforsch. 31b [1976] 1329/35).Google Scholar
  557. [136]
    R. S. P. Coutts (Australian J. Chem. 29 [1976] 1105/10).Google Scholar
  558. [137]
    A. Dormond, T. Kolavudh, J. Tirouflet (Compt. Rend. C 282 [1976] 551/3).Google Scholar
  559. [138]
    L E. Manzer (J. Organometal. Chem. 110 [1976] 291/4).Google Scholar
  560. [139]
    L. E. Manzer (Inorg. Chem. 15 [1976] 2567/9).Google Scholar
  561. [140]
    G. P. Pez, S. C. Kwan (J. Am. Chem. Soc. 98 [1976] 8079/83).Google Scholar
  562. [141]
    D. C. Sekutowski, G.D. Stucky (private communication from G. P. Pez, J. Am. Chem. Soc. 98 [1976] 8072/8).Google Scholar
  563. [142]
    D. G. Sekutowski, G. D. Stucky (J. Am. Chem. Soc. 98 [1976] 1376/82).Google Scholar
  564. [143]
    K. N. Semenenko, A. P. Savchenkova, S. E. Tokareva, B. M. Bulychev (Zh. Neorgan. Khim. 21 [1976] 1455/9Google Scholar
  565. [143a]
    K. N. Semenenko, A. P. Savchenkova, S. E. Tokareva, B. M. Bulychev Russ. J. Inorg. Chem. 21 [1976] 795/7).Google Scholar
  566. [144]
    E. Vitz, C. H. Brubaker (Coord. Chem. 17 [1976] 266).Google Scholar
  567. [145]
    E. Vitz, C. H. Brubaker (J. Organometal. Chem. 104 [1976] C33/C35).Google Scholar
  568. [146]
    J. L Atwood, G. K. Barker, J. Holton, W. E. Hunter, M. F. Lappert, R. Pearce (J. Am. Chem. Soc. 99 [1977] 6645/52).Google Scholar
  569. [147]
    E. J. M. de Boer, J. H. Teuben (J. Organometal. Chem. 140 [1977] 41/5).Google Scholar
  570. [148]
    A. Dormond, T. Kolavudh (J. Organometal. Chem. 125 [1977] 63/9).Google Scholar
  571. [149]
    V. A. Golubev, G. N. Voronina, L. I. Chernaya, F. S. D’yachkovskii, P. E. Matkovskii (Zh. Obshch. Khim. 47 [1977] 1825/32Google Scholar
  572. [149a]
    V. A. Golubev, G. N. Voronina, L. I. Chernaya, F. S. D’yachkovskii, P. E. Matkovskii J. Gen. Chem. [USSR] 47 [1977] 1669/76).Google Scholar
  573. [150]
    R. Jungst, D. Sekutowski, J. Davis, M. Luly, G. Stucky (Inorg. Chem. 16 [1977] 1645/55).Google Scholar
  574. [151]
    R. G. Jungst (Diss. Univ. Illinois, Urbana-Champaign 1976; Diss. Abstr. Intern. B 37 [1977] 5068).Google Scholar
  575. [152]
    J. G.-S. Lee, C. H. Brubaker (Inorg. Chim. Acta 25 [1977] 181/4).Google Scholar
  576. [153]
    L. E. Manzer (J. Organometal. Chem. 135 [1977] C6/C9).Google Scholar
  577. [154]
    A. A. Pasynskii, I. L Eremenko, Yu. V. Skripkin, V. T. Kalinnikov (Koord. Khim. 3 [1977] 1511/5; Soviet J. Coord. Chem. 3 [1977] 1177/80).Google Scholar
  578. [155]
    G. A. Razuvaev, V. N. Latyaeva, L. I. Vyshinskaya, A. V. Malysheva, G. A. Vasil’eva (Dokl. Akad. Nauk SSSR 237 [1977] 605/7;Google Scholar
  579. [155a]
    G. A. Razuvaev, V. N. Latyaeva, L. I. Vyshinskaya, A. V. Malysheva, G. A. Vasil’eva Dokl. Chem. Proc. Acad. Sci. USSR 232/237 [1977] 688/90).Google Scholar
  580. [156]
    H. Schmidbaur, W. Scharf, H.-J. Füller (Z. Naturforsch. 32b [1977] 858/62).Google Scholar
  581. [157]
    F. W. van der Weij, H. Scholtens, J. H. Teuben (J. Organometal. Chem. 127 [1977] 299/304).Google Scholar
  582. [158]
    A. Westerhof, H. J. de Liefde Meijer (J. Organometal. Chem. 139 [1977] 71/6).Google Scholar
  583. [159]
    F. Bottomley, H. H. Brintzinger (J. Chem. Soc. Chem. Commun. 1978 234/5).Google Scholar
  584. [160]
    B. M. Bulychev (Izv. Akad. Nauk SSSR Neorgan. Materialy 14 [1978] 1735/40;Google Scholar
  585. [160a]
    B. M. Bulychev Inorg. Materials [USSR] 14 [1978] 1350/5).Google Scholar
  586. [161]
    B. Demerseman, G. Bouquet, M. Bigorgne (J. Organometal. Chem. 145 [1978] 41/8).Google Scholar
  587. [162]
    E. J. M. de Boer, J. H. Teuben (J. Organometal. Chem. 153 [1978] 53/7).Google Scholar
  588. [163]
    B. F. Fieselmann, D. N. Hendrickson, G. D. Stucky (Inorg. Chem. 17 [1978] 1841/8).Google Scholar
  589. [164]
    B. F. Fieselmann, G. D. Stucky (Inorg. Chem. 17 [1978] 2074/7).Google Scholar
  590. [165]
    B. F. Fieselmann, D. N. Hendrickson, G. D. Stucky (Inorg. Chem. 17 [1978] 2078/84).Google Scholar
  591. [166]
    B. Klei, J. H. Teuben (J. Chem. Soc. Chem. Commun. 1978 659/60).Google Scholar
  592. [167]
    F. H. Köhler, D. Cozak (Z. Naturforsch. 33b [1978] 1274/7).Google Scholar
  593. [168]
    L E. Manzer (J. Am. Chem. Soc. 100 [1978] 8068/73).Google Scholar
  594. [169]
    G. A. Razuvaev, L. I. Vyshinskaya, G. A. Vasil’eva, V. N. Latyaeva, S. Ya. Timoshenko, N. L. Ermolaev (Izv. Akad. Nauk SSSR Ser. Khim. 1978 2584/8; Bull. Acad. Sci. USSR Div. Chem. Sci. 1978 2310/4).Google Scholar
  595. [170]
    G. L. Soloveichik, S. E. Tokareva, A. P. Savchenkova, K. N. Semenenko, B. M. Bulychev (Koord. Khim. 4 [1978] 1211/5Google Scholar
  596. [170]
    G. L. Soloveichik, S. E. Tokareva, A. P. Savchenkova, K. N. Semenenko, B. M. Bulychev Soviet J. Coord. Chem. 4 [1978] 909/13).Google Scholar
  597. [171]
    S. E. Tokareva, G. L. Soloveichik, B. M. Bulychev. K. N. Semenenko (Izv. Akad. Nauk SSSR Neorgan. Materialy 14 [1978] 1741/6;Google Scholar
  598. [171]
    S. E. Tokareva, G. L. Soloveichik, B. M. Bulychev. K. N. Semenenko Inorg. Materials [USSR] 14 [1978] 1355/9).Google Scholar
  599. [172]
    G. W. M. Visser, J. H. Teuben (J. Organometal. Chem. 144 [1978] 81/4).Google Scholar
  600. [173]
    N. A. Yakovleva, A. L. Kostenko, B. M. Bulychev, G. L. Soloveichik (Abstr. Rept. 3rd All- Union Conf. Synthesis Physicochem. Prop. Transit. Met. Hydrides, Moscow 1978, p. 68 from S. E. Tokareva et al., Izv. Akad. Nauk SSSR Neorgan. Materialy 14 [1978] 1741/6; Inorg. Materials [USSR] 14 [1978] 1355/9).Google Scholar
  601. [174]
    N. A. Yakovleva, G. L Soloveichik, B. M. Bulychev (Izv. Akad. Nauk SSSR Ser. Khim. 1978 1409/12; Bull. Acad. Sci. USSR Div. Chem. Sci. 1978 1228/30).Google Scholar
  602. [175]
    H. Antropiusova, K. Mach, V. Hanus, F. Turecek, P. Sedmera (React. Kinet. Catal. Letters 10 [1979] 297/300).Google Scholar
  603. [176]
    B. M. Bulychev, S. E. Tokareva, G. L. Soloveichik, E. V. Evdokimova (J. Organometal. Chem. 179 [1979] 263/73).Google Scholar
  604. [177]
    B. M. Bulychev, G. L. Soloveichik, A. L. Kostenko (9th Intern. Conf. Organometal. Chem., Dijon, Fr., 1979, Abstr. P 60).Google Scholar
  605. [178]
    D. R. Corbin, L. C. Francesconi, D. N. Hendrickson, G. D. Stucky (Inorg. Chem. 18 [1979] 3069/74).Google Scholar
  606. [179]
    E. J. M. de Boer, L C. ten Cate, A. G. J. Staring, J. H. Teuben (J. Organometal. Chem. 181 [1979] 61/8).Google Scholar
  607. [180]
    E. J. M. de Boer, J. H. Teuben (J. Organometal. Chem. 166 [1979] 193/8).Google Scholar
  608. [181]
    A. Dormond, T. Kolavudh, J. Tirouflet (J. Organometal. Chem. 165 [1979] 319/27).Google Scholar
  609. [182]
    G. A. Domrachev, V. K. Khamylov, I. V. Lomakova, V. T. Bychkov (Zh. Obshch. Khim. 49 [1979] 2533/6Google Scholar
  610. [182a]
    G. A. Domrachev, V. K. Khamylov, I. V. Lomakova, V. T. Bychkov J. Gen. Chem. [USSR] 49 [1979] 2239/41).Google Scholar
  611. [183]
    G. Fachinetti, C. Floriani, A. Chiesi-Villa, C. Guastini (J. Am. Chem. Soc. 101 [1979] 1767/75).Google Scholar
  612. [184]
    J. Holton, M. F. Läppert, D. G. H. Ballard, R. Pearce, J. L. Atwood, W. E. Hunter (J. Chem. Soc. Dalton Trans. 1979 45/53).Google Scholar
  613. [185]
    E. Klei, J. H. Teuben (9th Intern. Conf. Organometal. Chem., Dijon, Fr., 1979, Abstr. C6).Google Scholar
  614. [186]
    S. R. Wade, G. R. Willey (J. Less-Common Metals 68 [1979] 105/6).Google Scholar
  615. [187]
    F. Bottomley, I. J. B. Lin, M. Mukaida (J. Am. Chem. Soc. 102 [1980] 5238/42).Google Scholar
  616. [188]
    B. M. Bulychev, V. B. Polyakova, G. L. Soloveichik, A. L. Kostenko (Zh. Neorgan. Khim. 25 [1980] 2134/8Google Scholar
  617. [188]
    B. M. Bulychev, V. B. Polyakova, G. L. Soloveichik, A. L. Kostenko Russ. J. Inorg. Chém. 25 [1980] 1182/4).Google Scholar
  618. [189]
    M. J. Calhorda, A. R. Dias (J. Chem. Soc. Dalton Trans. 1980 1443/7).Google Scholar
  619. [190]
    B. Cetinkaya, P. B. Hitchcock, M. F. Läppert, S. Torroni, J. L Atwood, W. E. Hunter, M. J. Zaworotko (J. Organometal. Chem. 188 [1980] C31/C35).Google Scholar
  620. [191]
    H. Lehmkuhl, S. Fustero (Liebigs Ann. Chem. 1980 1371/5).Google Scholar
  621. [192]
    K. Mach, H. Antropiusova, V. Hanus, A. Dosedlova (Transition Metal Chem. [Weinheim] 5 [1980] 5/10).Google Scholar
  622. [193]
    H. Antropiusova, A. Dosedlova, V. Hanus, K. Mach (Transition Metal Chem. [Weinheim] 6 [1981] 90/3).Google Scholar
  623. [194]
    L. P. Battaglia, M. Nardelli, C. Pelizzi, G. Predieri, G. P. Chiusoli (J. Organometal. Chem. 259 [1983] C7/C9).Google Scholar
  624. [195]
    F. Bottomley, I. J. B. Lin (J. Chem. Soc. Dalton Trans. 1981 271/5).Google Scholar
  625. [196]
    F. Bottomley, J. Darkwa, G. Egharevba, I. J. B. Lin, M. Mukaida, D. Paez, P. S. White (10th Intern. Conf. Organometal. Chem., Toronto 1981, Abstr. 280).Google Scholar
  626. [197]
    F. Bottomley, I. J. B. Lin, P. S. White (J. Organometal. Chem. 212 [1981] 341/9).Google Scholar
  627. [198]
    B. M. Bulychev, A. L. Kostenko, N. A. Yakovleva, G. L. Soloveichik (Transition Metal Chem. [Weinheim] 6 [1981] 32/6).Google Scholar
  628. [199]
    B. M. Bulychev, A. L. Kostenko, G. L. Soloveichik, V. B. Polyakova (Transition Metal Chem. [Weinheim] 6 [1981] 240/6).Google Scholar
  629. [200]
    R. Choukroun (Inorg. Chim. Acta 58 [1981] 121/2).Google Scholar
  630. [201]
    E. V. Evdokimova, B. M. Bulychev, G. L Soloveichik (Kinetika Kataliz 22 [1981] 170/6Google Scholar
  631. [201]
    E. V. Evdokimova, B. M. Bulychev, G. L Soloveichik Kinet. Catal. [USSR] 22 [1981] 144/9).Google Scholar
  632. [202]
    L. C. Francesconi, D. R. Corbin, A. W. Clauss, D. IM. Hendrickson, G. D. Stucky (Inorg. Chem. 20 [1981] 2078/83).Google Scholar
  633. [203]
    E. Klei, J. H. Teuben (J. Organometal. Chem. 222 [1981] 79/88).Google Scholar
  634. [204]
    E. Klei, J. H. Telgen, J. H. Teuben (J. Organometal. Chem. 209 [1981] 297/307).Google Scholar
  635. [205]
    Y. Mugnier, C. Moise, E. Laviron (J. Organometal. Chem. 204 [1981] 61/6).Google Scholar
  636. [206]
    M. Pankowski, E. Samuel (J. Organometal. Chem. 221 [1981] C21/C24).Google Scholar
  637. [207]
    F. Sato, S. Iijima, M. Sato (J. Chem. Soc. Chem. Commun. 1981 180/1).Google Scholar
  638. [208]
    F. Sato, S. Iijima, M. Sato (Tetrahedron Letters 22 [1981] 243/6).Google Scholar
  639. [209]
    P. J. Krusic, F. N. Tebbe (Inorg. Chem. 21 [1982] 2900/2).Google Scholar
  640. [210]
    C. R. Lucas (J. Organometal. Chem. 236 [1982] 2990/2).Google Scholar
  641. [211]
    L. P. Battaglia, M. Nardelli, C. Pelizzi, G. Predieri, G. P. Chiusoli (J. Organometal. Chem. 259 [1983] 301/3).Google Scholar
  642. [212]
    G. Fochi, C. Floriani, J. C. J. Bart, G. Giunchi (J. Chem. Soc. Dalton Trans. 19831515/21).Google Scholar
  643. [213]
    K. Mach, H. Antropiusova (J. Organometal. Chem. 248 [1983] 287/98).Google Scholar
  644. [214]
    K. Mach, L. Petrusova, H. Antropiusova, V. Hanus, F. Turecek, P. Sedmera (Collection Czech. Chem. Commun. 48 [1983] 2924/36).Google Scholar
  645. [215]
    S. R. Wade, M. G. H. Wallbridge, G. R. Willey (J. Chem. Soc. Dalton Trans. 1983 2555/9).Google Scholar
  646. [216]
    S. Wu, Y. Zhou (Lanzhou Daxue Xuebao Ziran Kexueban 19 [1983] 37/40; CA. 100 [1984] No. 192440).Google Scholar
  647. [217]
    D. Cozak, C. deBlois (Can. J. Chem. 62 [1984] 392/4).Google Scholar
  648. [218]
    D. Cozak (23rd Intern. Conf. Coord. Chem., Boulder 1984, Abstr. 424).Google Scholar
  649. [219]
    S. G. Davies, S. E. Thomas (Synthesis 1984 1027/29).Google Scholar
  650. [220]
    G. Fochi, C. Floriani (J. Chem. Soc. Dalton Trans. 1984 2577/80).Google Scholar
  651. [221]
    M. F. Lappert, C. L. Raston, B. W. Skelton, A. H. White (J. Chem. Soc. Dalton Trans. 1984 893/902).Google Scholar
  652. [222]
    E. B. Lobkovskii, G. L Soloveichik, A. I. Sisov, B. M. Bulychev, A. I. Gusev, N. I. Kirillova (J. Organometal. Chem. 265 [1984] 167/73).Google Scholar
  653. [223]
    K. Mach, H. Antropiusova, V. Hanus, F. Turecek, P. Sedmera (J. Organometal. Chem. 269 [1984] 39/52).Google Scholar
  654. [224]
    N. L. Ermolaev, G. A. Vasil’eva, L. I. Vyshinskaya, M. N. Bochkarev, G. A. Razuvaev (Zh. Obshch. Khim. 55 [1985] 617/21Google Scholar
  655. [224a]
    N. L. Ermolaev, G. A. Vasil’eva, L. I. Vyshinskaya, M. N. Bochkarev, G. A. Razuvaev J. Gen. Chem. [USSR] 55 [1985] 547/9).Google Scholar
  656. [225]
    M. Kilner, G. Parkin, A. G. Talbot (J. Chem. Soc. Chem. Commun. 1985 34/5).Google Scholar
  657. [226]
    K. Mach, F. Turecek, V. Hanus, L. Petrusova, H. Antropiusova, A. Dosedlova, P. Sedmera (Chem. Zvesti 36 [1982] 191/200).Google Scholar
  658. [227]
    E.V. Evdokimova, G. L. Soloveichik, B. M. Bulychev (Kinetika Kataliz 23 [1982] 1109/13Google Scholar
  659. [227]
    E.V. Evdokimova, G. L. Soloveichik, B. M. Bulychev Kinet. Catal. [USSR] 23 [1982] 943/53).Google Scholar
  660. [228]
    B. F. Fieselmann, G. D. Stucky (J. Organometal. Chem. 137 [1977] 43/54).Google Scholar
  661. [229]
    K. Mach, H. Antropiusova, V. Hanus (Transition Metal Chem. [Weinheim] 10 [1985] 302/7).Google Scholar
  662. [230]
    M. Etienne, R. Choukroun, M. Basso-Bert, F. Dahan, D. Gervais (Nouv. J. Chim. 8 [1984] 531/5).Google Scholar
  663. [231]
    D. Cozak (Makromol. Chem. Rapid Commun. 5 [1984] 435/40).Google Scholar
  664. [232]
    K. Kaeriyama, Y. Shimura (J. Polym. Sci. Polym. Chem. Ed. 10 [1972] 2833/40).Google Scholar
  665. [233]
    D. A. Lemenovskii, I. E. Nifant’ev, D. V. Zagorevskii (Izv. Akad. Nauk SSSR Ser. Khim. 1985 1933; Bull. Acad. Sci. USSR Div. Chem. Sci. 1985 1787).Google Scholar
  666. [234]
    A. I. Sizov, G. L Soloveichik, B. M. Bulychev (Koord. Khim. 11 [1985] 339/45Google Scholar
  667. [234]
    A. I. Sizov, G. L Soloveichik, B. M. Bulychev Soviet J. Coord. Chem. 11 [1985] 183/9).Google Scholar
  668. [235]
    V. K. Bel’skii, A. I. Sizov, B. M. Bulychev, G. L Soloveichik (Koord. Khim. 11 [1985] 1003/6).Google Scholar
  669. [236]
    E. Klei, J. H. Teuben (J. Organometal. Chem. 188 [1980] 97/107).Google Scholar
  670. [237]
    K. Tamao, M. Akita, R. Kanatani, N. Ishida, M. Kumada (J. Organometal. Chem. 226 [1982] C9/C13).Google Scholar
  671. [238]
    F. Sato, Y. Suzuki, M. Sato (Tetrahedron Letters 23 [1982] 4589/92).Google Scholar
  672. [239]
    L. E. Manzer (Inorg. Syn. 21 [1982] 84/5).Google Scholar
  673. [240]
    A. I. Sizov, M. K. Alekseev, G. L. Soloveichik, B. M. Bulychev (Koord. Khim. 9 [1983] 492/6).Google Scholar
  674. [241]
    F. Sato, H. Uchiyama, K. Iida, Y. Kobayashi, M. Sato (J. Chem. Soc. Chem. Commun. 1983 921/2).Google Scholar
  675. [242]
    H. Lehmkuhl, E. Janssen, R. Schwickardi (J. Organometal. Chem. 258 [1983] 171/80).Google Scholar
  676. [243]
    H. Lehmkuhl, Y.-L. Tsien (Chem. Ber. 116 [1983] 2437/46).Google Scholar
  677. [244]
    H. Lehmkuhl, Y.-L. Tsien, E. Janssen, R. Mynott (Chem. Ber. 116 [1983] 2426/36).Google Scholar
  678. [245]
    E. U. van Raaij, C. D. Schmulbach, H. H. Brintzinger (J. Organometal. Chem. 328 [1987] 275/85).Google Scholar
  679. [246]
    Q. Yanlong, L. Jiaqui, X. Weihua (J. Mol. Catal. 34 [1986] 31/8).Google Scholar
  680. [247]
    A. I. Sizov, I. V. Molodnitskaya, B. M. Bulychev, E. V. Evdokimova, G. L. Soloveichik, A. I. Gusev, E. B. Chuklanova, V. I. Andrianov (J. Organometal. Chem. 335 [1987] 323/30).Google Scholar
  681. [248]
    S. Renaud, Y. Mugnier, L. Roullier, E. Laviron (J. Organometal. Chem. 309 [1986] C11/C14).Google Scholar
  682. [249]
    W. E. Lindsell, R. A. Parr (Polyhedron 5 [1986] 1259/65).Google Scholar
  683. [250]
    M. Kilner, G. Parkin (J. Organometal. Chem. 302 [1986] 181/91).Google Scholar
  684. [251]
    L. Gelmini, D. W. Stephan (Organometallics 6 [1987] 1515/22).Google Scholar
  685. [252]
    J. J. Eisch, M. P. Boleslawski (J. Organometal. Chem. 334 [1987] C1/C4).Google Scholar
  686. [253]
    V. K. Bel’skii, i. V. Sokoiova, B. M. Bulychev, A. I. Sizov (Zh. Strukt. Khim. 28 No. 2 [1987] 187/8Google Scholar
  687. [253]
    V. K. Bel’skii, i. V. Sokoiova, B. M. Bulychev, A. I. Sizov J. Struct. Chem. [USSR] 28 [1987] 328/9).Google Scholar
  688. [254]
    L. E. Manzer, G. W. Parshall (Inorg. Chem. 15 [1976] 3114/6).Google Scholar
  689. [255]
    H. Schreer, H.-O. Fröhlich (Z. Chem. [Leipzig] 24 [1984] 442/3).Google Scholar
  690. [256]
    G. Tainturier, B. Gautheron, C. Degrand (Organometallics 5 [1986] 942/6).Google Scholar
  691. [257]
    D. Cozak, A. Mardhy, A. Morneau (Can. J. Chem. 64 [1986] 751/9).Google Scholar
  692. [258]
    C. Degrand, B. Gautheron, G. Tainturier, unpublished results from [256].Google Scholar
  693. [259]
    P. Biagini, F. Calderazzo, G. Pampaloni, P. F. Zanazzi (Gazz. Chim. Ital. 117 [1987] 27/37).Google Scholar
  694. [1]
    H. Nöth, R. Hartwimmer (Chem. Ber. 93 [1960] 2246/51).Google Scholar
  695. [2]
    K. Issleib, H. Häckert (Z. Naturforsch. 21b [1966] 519/21).Google Scholar
  696. [3]
    H. A. Martin, F. Jellinek (J. Organometal. Chem. 8 [1967] 115/28).Google Scholar
  697. [4]
    H. A. Martin, F. Jellinek (J. Organometal. Chem. 12 [1968] 149/61).Google Scholar
  698. [5]
    S. P. Gubin, S. A. Smirnova (J. Organometal. Chem. 20 [1969] 229/40).Google Scholar
  699. [6]
    Y. Nishino, A. Miyake, Toray Industries, Inc. (Japan. 73/04 035 [1969/73] from CA. 78 [1973] No. 147449).Google Scholar
  700. [7]
    S. A. Smirnova, S. P. Gubin (Izv. Akad. Nauk SSSR Ser. Khim. 1969 1890/7; Bull. Acad. Sci. USSR Div. Chem. Sci. 1969 1750/6).Google Scholar
  701. [8]
    J. E. Bercaw, R. H. Marvich, L. G. Bell, H. H. Brintzinger (J. Am. Chem. Soc. 94 [1972] 1219/38).Google Scholar
  702. [9]
    R. S. P. Coutts, P. C. Wailes, R. L. Martin (J. Organometal. Chem. 47 [1973] 375/82).Google Scholar
  703. [10]
    R. S. P. Coutts, R. L. Martin, P. C. Wailes (Australian J. Chem. 26 [1973] 2101/4).Google Scholar
  704. [11]
    T. Chivers, E. D. Ibrahim (J. Organometal. Chem. 77 [1974] 241/6).Google Scholar
  705. [12]
    E. Colomer, R. Corriu (J. Organometal. Chem. 82 [1974] 367/73).Google Scholar
  706. [13]
    P. C. Wailes (J. Organometal. Chem. 79 [1974] 201/22, 206).Google Scholar
  707. [14]
    R. S. P. Coutts (Australian J. Chem. 29 [1976] 1105/10).Google Scholar
  708. [15]
    B. M. Bulychev, G. L. Soloveichik, A. L. Kostenko (9th Intern. Conf. Organometal. Chem., Dijon 1979, Abstr. P 60).Google Scholar
  709. [16]
    B. M. Bulychev, A. L. Kostenko, N. A. Yakovleva, G. L. Soloveichik (Transition Metal Chem. [Weinheim] 6 [1981] 32/6).Google Scholar
  710. [17]
    B. M. Bulychev, A. L. Kostenko, G. L. Soloveichik, V. B. Polyakova (Transition Metal Chem. [Weinheim] 6 [1981] 240/6).Google Scholar
  711. [18]
    E. V. Evdokimova, B. M. Bulychev, G. L Soloveichik (Kinetika Kataliz 22 [1981] 170/6Google Scholar
  712. [18a]
    E. V. Evdokimova, B. M. Bulychev, G. L Soloveichik Kinet. Catal. [USSR] 22 [1981] 144/9).Google Scholar
  713. [19]
    J. S. Merola, R. A. Gentile, G. B. Ansell, M. A. Modrick, S. Zentz (Organometallics 1 [1982] 1731/3).Google Scholar
  714. [20]
    S. R. Wade, M. G. H. Wallbridge, G. R. Willey (J. Chem. Soc. Dalton Trans. 1983 2555/9).Google Scholar
  715. [21]
    M. R. M. Bruce, D. R. Tyler (Organometallics 4 [1985] 528/33).Google Scholar
  716. [22]
    J. Polacek, H. Antropiusova, L. Petrusova, K. Mach (Collection Czech. Chem. Commun. 51 [1986] 2751/9).Google Scholar
  717. [23]
    P. Biagini, F. Calderazzo, G. Pampaloni, P. F. Zanazzi (Gazz. Chim. Ital. 117 [1987] 27/37).Google Scholar
  718. [1]
    E. G. de Witt, H. Shapiro, J. E. Brown, Ethyl Corporation (U.S. 2864843 [1953/58]).Google Scholar
  719. [2]
    W. Marconi, M. L. Santostasi, M. De Malde (Chim. Ind. [Milan] 44 [1962] 229/34).Google Scholar
  720. [3]
    J. E. Bercaw, R. H. Marvich, L. G. Bell, H. H. Brintzinger (J. Am. Chem. Soc. 94 [1972] 1219/38).Google Scholar
  721. [4]
    H. A. Martin, M. van Gorkom, R. O. de Jongh (J. Organometal. Chem. 36 [1972] 93/100).Google Scholar
  722. [5]
    D. G. Sekutowski, G. D. Stucky (7th Intern. Conf. Organometal. Chem., Venice 1975, Abstr. No. 4).Google Scholar
  723. [6]
    D. G. Sekutowski, G. D. Stucky (Inorg. Chem. 14 [1975] 2192/9).Google Scholar
  724. [7]
    A. Dormond, T. Kolavudh, J. Tirouflet (Compt. Rend. C 282 [1976] 551/3).Google Scholar
  725. [8]
    D. G. Sekutowski, G. D. Stucky (J. Am. Chem. Soc. 98 [1976] 1376/82).Google Scholar
  726. [9]
    D. G. Sekutowski (Diss. Univ. Illinois 1975; Diss. Abstr. Intern. B 36 [1976] 4469/70).Google Scholar
  727. [10]
    A. Dormond, T. Kolavudh (J. Organometal. Chem. 125 [1977] 63/9).Google Scholar
  728. [11]
    R. Jungst, D. Sekutowski, J. Davis, M. Luly, G. Stucky (Inorg. Chem. 16 [1977] 1645/55).Google Scholar
  729. [12]
    R. G. Jungst (Diss. Univ. Illinois 1976; Diss. Abstr. Intern. B 37 [1977] 5068).Google Scholar
  730. [13]
    B. F. Fieselmann, D. N. Hendrickson, G. D. Stucky (Inorg. Chem. 17 [1978] 1841/8).Google Scholar
  731. [14]
    F. H. Köhler, D. Cozak (Z. Naturforsch. 33b [1978] 1274/7).Google Scholar
  732. [15]
    D. R. Corbin, L. C. Francesconi, D. N. Hendrickson, G. D. Stucky (J. Chem. Soc. Chem. Commun. 1979 248/9).Google Scholar
  733. [16]
    D. R. Corbin, L. C. Francesconi, D. N. Hendrickson, G. D. Stucky (Inorg. Chem. 18 [1979] 3069/74).Google Scholar
  734. [17]
    E. J. M. de Boer, L C. ten Cate, A. G. J. Staring, J. H. Teuben (J. Organometal. Chem. 181 [1979] 61/8).Google Scholar
  735. [18]
    A. Dormond, T. Kolavudh, J. Tirouflet (J. Organometal. Chem. 165 [1979] 319/27).Google Scholar
  736. [19]
    J. H. Teuben, E. J. M. de Boer, A. H. Klazinga, E. Klei (J. Mol. Catal. 13 [1981] 107/14).Google Scholar
  737. [20]
    S. A. Cohen, P. R. Auburn, J. E. Bercaw (J. Am. Chem. Soc. 105 [1983] 1136/43).Google Scholar
  738. [21]
    D. R. Corbin, J. L Atwood, G. D. Stucky (Inorg. Chem. 25 [1986] 98/102).Google Scholar
  739. [22]
    H. Lehmkuhl, R. Schwickardi (J. Org ano metal. Chem. 303 [1986] C43/C46).Google Scholar
  740. [23]
    M. P. Castellani, S. J. Geib, A. L Rheingold, W. C. Trogler (Organometallics 6 [1987] 2524/31).Google Scholar
  741. [24]
    J. W. Pattiasina, H. J. Heeres, F. van Bolhuis, A. Meetsma, J. H. Teuben, A. L. Spek (Organometallics 6 [1987] 1004/10).Google Scholar
  742. [25]
    G. Tainturier, B. Gautheron, C. Degrand (Organometallics 5 [1986] 942/6).Google Scholar
  743. [1]
    J. M. Birmingham, A. K. Fischer, G. Wilkinson (Naturwissenschaften 42 [1955] 96).Google Scholar
  744. [2]
    BASF, G. Hamprecht, L. Taglinger (Ger. 1153749 [1961/63]).Google Scholar
  745. [3]
    S. A. Giddings (Inorg. Chem. 5 [1964] 684/7).Google Scholar
  746. [4]
    E. Samuel (Bull. Soc. Chim. France 1966 3548/64).Google Scholar
  747. [5]
    H. A. Martin, F. Jellinek (J. Organometal. Chem. 8 [1967] 115/28).Google Scholar
  748. [6]
    H. H. Brintzinger (J. Am. Chem. Soc. 89 [1967] 6871/6).Google Scholar
  749. [7]
    C. G. Vonk (private communication from [5]).Google Scholar
  750. [8]
    J.-J. Salzmann (Helv. Chim. Acta 51 [1968] 526/9).Google Scholar
  751. [9]
    R. S. P. Coutts, P. C. Wailes (Advan. Organometal. Chem. 9 [1970] 135/93).Google Scholar
  752. [10]
    H. Weigold (unpublished results from R. S. P. Coutts, P. C. Wailes, Advan. Organometal. Chem. 9 [1970] 135/93/153).Google Scholar
  753. [11]
    H. A. Martin, F. Jellinek (Angew. Chem. 76 [1964] 274Google Scholar
  754. [11a]
    H. A. Martin, F. Jellinek Angew. Chem. Intern. Ed. Engl. 3 [1964] 311).Google Scholar
  755. [12]
    M. L. H. Green, C. R. Lucas (J. Chem. Soc. Dalton Trans. 1972 1000/3).Google Scholar
  756. [13]
    Yu. G. Borod’ko, I. N. Ivleva, L M. Kachapina, S. I. Salienko, A. K. Shilova, A. E. Shilov (Zh. Strukt. Khim. 14 [1973] 1112/3Google Scholar
  757. [13]
    Yu. G. Borod’ko, I. N. Ivleva, L M. Kachapina, S. I. Salienko, A. K. Shilova, A. E. Shilov J. Struct. Chem. [USSR] 14 [1973] 1041/2).Google Scholar
  758. [14]
    R. S. P. Coutts, P. C. Wailes, R. L. Martin (J. Organometal. Chem. 47 [1973] 375/82).Google Scholar
  759. [15]
    H. Bos (unpublished results from [16]).Google Scholar
  760. [16]
    C. G. Vonk (J. Cryst. Mol. Struct. 3 [1973] 201/7).Google Scholar
  761. [17]
    R. Jungst, D. Sekutowski, G. Stucky (J. Am. Chem. Soc. 96 [1974] 8108/9).Google Scholar
  762. [18]
    D. G. Sekutowski, R. Jungst, G. D. Stucky (ACS Symp. Ser. No. 5 [1974] 142/63).Google Scholar
  763. [19]
    D. G. Sekutowski, G. D. Stucky (Inorg. Chem. 14 [1975] 2192/9).Google Scholar
  764. [20]
    D. G. Sekutowski (Diss. Univ. Illinois 1975; Diss. Abstr. Intern. B 36 [1976] 4469/70).Google Scholar
  765. [21]
    R. S. P. Coutts (Australian J. Chem. 29 [1976] 1105/10).Google Scholar
  766. [22]
    D. G. Sekutowski, G. D. Stucky (J. Am. Chem. Soc. 98 [1976] 1376/82).Google Scholar
  767. [23]
    D. G. Sekutowski, G. D. Stucky (J. Chem. Educ. 53 [1976] 110).Google Scholar
  768. [24]
    R. G. Jungst (Diss. Univ. Illinois 1976; Diss. Abstr. Intern. B 37 [1977] 5068).Google Scholar
  769. [25]
    D. G. Sekutowski, R. Jungst, C. D. Stucky (Inorg. Chem. 17 [1978] 1848/55).Google Scholar
  770. [26]
    B. Demerseman, G. Bouquet, M. Bigorgne (J. Organometal. Chem. 145 [1978] 41/8).Google Scholar
  771. [27]
    L P. Battaglia, M. Nardelli, C. Pelizzi, G. Predieri, G. P. Chiusoli (J. Organometal. Chem. 259 [1981] C7/C9).Google Scholar
  772. [28]
    C. S. Bajgur, W. R. Tikkanen, J. L. Petersen (Inorg. Chem. 24 [1985] 2539/46).Google Scholar
  773. [29]
    D. Gourier, D. Vivien, E. Samuel (J. Am.Chem. Soc. 107 [1985] 7418/23).Google Scholar
  774. [1]
    S. A. Giddings (Inorg. Chem. 5 [1964] 684/7).Google Scholar
  775. [2]
    S. A. Giddings, American Cyanamid Co. (U.S. 3220987 [1963/65]).Google Scholar
  776. [3]
    S. A. Giddings, American Cyanamid Co. (U.S. 3226369 [1963/65]).Google Scholar
  777. [4]
    S. A. Giddings (U.S. 3347887 [1963/67]).Google Scholar
  778. [5]
    J. E. Bercaw, R. H. Marvich, L G. Bell, H. H. Brintzinger (J. Am. Chem. Soc. 94 [1972] 1219/38).Google Scholar
  779. [6]
    T. Chivers, E. D. Ibrahim (Can. J. Chem. 51 [1973] 815/20).Google Scholar
  780. [7]
    F. Bottomley, H. H. Brintzinger (J. Chem. Soc. Chem. Commun. 1978 234/5).Google Scholar
  781. [8]
    F. Bottomley, I. J. B. Lin, M. Mukaida (J. Am. Chem. Soc. 102 [1980] 5238/42).Google Scholar
  782. [9]
    F. Bottomley, J. Darkwa, G. Egharevba, I. J. B. Lin, M. Mukaida, D. Paez, P. S. White (10th Intern. Conf. Organometal. Chem., Toronto 1981, Abstr. p. 280).Google Scholar
  783. [10]
    B. Honold, U. Thewalt, M. Herberhold, H. G. Alt, L B. Kool, M. D. Rausch (J. Organometal. Chem. 314 [1986] 105/11).Google Scholar
  784. [1]
    R. S. P. Coutts, P. C. Wailes (Australian J. Chem. 21 [1968] 1181/6).Google Scholar
  785. [2]
    R. S. P. Coutts (Australian J. Chem. 29 [1976] 1105/10).Google Scholar
  786. [3]
    B. Demerseman, G. Bouquet, M. Bigorgne (J. Organometal. Chem. 145 [1978] 41/8).Google Scholar
  787. [4]
    F. Bottomley, I. J. B. Lin, M. Mukaida (J. Am. Chem. Soc. 102 [1980] 5238/42).Google Scholar
  788. [1]
    R. S. P. Coutts, P. C. Wailes (Australian J. Chem. 20 [1967] 1579/85).Google Scholar
  789. [2]
    A. A. Pasynskii, T. Ch. Idrisov, K. M. Suvorova, I. L. Eremenko, E. B. Ivanova, V. T. Kalinnikov (Izv. Akad. Nauk SSSR Ser. Khim. 1974 2564/8; Bull. Acad. Sci. USSR Div. Chem. Sci. 1974 2471/5).Google Scholar
  790. [3]
    Bottomley, I. J. B. Lin, P. S. White (J. Organometal. Chem. 212 [1981] 341/9).Google Scholar
  791. [4]
    L C. Francesconi, D. R. Corbin, A. W. Clauss, D. N. Hendrickson, G. D. Stucky (Inorg. Chem. 20 [1981] 2059/69).Google Scholar
  792. [5]
    L C. Francesconi, D. R. Corbin, A. W. Clauss, D. N. Hendrickson, G. D. Stucky (Inorg. Chem. 20 [1981] 2078/83).Google Scholar
  793. [6]
    L Stecher Kramer, A. W. Clauss, L. C. Francesconi, D. R. Corbin, D. N. Hendrickson, G. D. Stucky (Inorg. Chem. 20 [1981] 2070/7).Google Scholar
  794. [7]
    J. S. Merola, R. A. Gentile, G. B. Ansell, M. A. Modrick, S. Zentz (Organometallics 1 [1982] 1731/3).Google Scholar
  795. [8]
    H.-O. Fröhlich, H. Schreer (Z. Chem. [Leipzig] 23 [1983] 348/9).Google Scholar
  796. [9]
    A. W. Clauss, S. R. Wilson, R. M. Buchanan, C. G. Pierpont, D. N. Hendrickson (Inorg. Chem. 22 [1983] 628/36).Google Scholar
  797. [10]
    D. R. Corbin, J. L. Atwood, G. D. Stucky (Inorg. Chem. 25 [1986] 98/102).Google Scholar
  798. [11]
    H. A. Harris, A. D. Rae, L. F. Dahl (J. Am. Chem. Soc. 109 [1987] 4739/41).Google Scholar
  799. [12]
    H.-O. Fröhlich, H. Schreer (Ger. [East] DD 219488 [1983/85]).Google Scholar
  800. [1]
    G. Wilkinson, J. M. Birmingham (J. Am. Chem. Soc. 76 [1954] 4281/4).Google Scholar
  801. [2]
    H. Nöth, J. Voitländer, M. Nussbaum (Naturwissenschaften 47 [1960] 57).Google Scholar
  802. [3]
    J. E. Bercaw, H. H. Brintzinger (J. Am. Chem. Soc. 91 [1969] 7301/6).Google Scholar
  803. [4]
    R. S. P. Coutts, P. C. Wailes (unpublished results from R. S. Coutts, P. C. Wailes, Advan. Organometal. Chem. 9 [1970] 135/93,169/70).Google Scholar
  804. [5]
    M. F. Lappert, A. R. Sanger (J. Chem. Soc. A 1971 1314/20).Google Scholar
  805. [6]
    B. Cetinkaya, P. B. Hitchcock, M. F. Lappert, S. Torroni, J. L. Atwood, W. E. Hunter, M. J. Zaworotko (J. Organometal. Chem. 188 [1980] C31/C35).Google Scholar
  806. [7]
    F. Sato, T. Jinbo, M. Sato (Tetrahedron Letters 21 [1980] 2171/4).Google Scholar
  807. [8]
    F. Sato, S. Iijima, M. Sato (Tetrahedron Letters 22 [1981] 243/6).Google Scholar
  808. [9]
    E. Klei, J. H. Teuben, H. J. de Liefde Meijer, E. J. Kwak, A. P. Bruins (J. Organometal. Chem. 224 [1982] 327/9).Google Scholar
  809. [10]
    B. Klei, J. H. Teuben, H. J. de Liefde Meijer (J. Chem. Soc. Chem. Commun. 1981 342/4).Google Scholar
  810. [11]
    M. Pasquali, C. Floriani, A. Chiesi-Villa, C. Guastini (Inorg. Chem. 20 [1981] 349/55).Google Scholar
  811. [12]
    J. H. Teuben, E. J. M. de Boer, A. H. Klazinga, E. Klei (J. Mol. Catal. 13 [1981] 107/14).Google Scholar
  812. [1]
    M. F. Läppert, A. R. Sanger (J. Chem. Soc. A 1971 1314/20).Google Scholar
  813. [2]
    J. S. Merola, R. A. Gentile, G. B. Ansell, M. A. Modrick, S. Zentz (Organometallics 1 [1982] 1731/3).Google Scholar
  814. [3]
    J. S. Merola, K. S. Campo, R. A. Gentile, M. A. Modrick, S. Zentz (Organometallics 3 [1984] 334/7).Google Scholar
  815. [4]
    E. J. M. de Boer, J. de With, A. G. Orpen (J. Chem. Soc. Chem. Commun. 1985 1666/7).Google Scholar
  816. [5]
    S. Gambarotta, S. Stella, C. Floriani, A. Chiesi-Villa, C. Guastini (Angew. Chem. 98 [1986] 283/4).Google Scholar
  817. [6]
    R. S. P. Coutts, B. Kautzner, P. C. Wailes (Australian J. Chem. 22 [1969] 1137/41).Google Scholar
  818. [1]
    M. F. Läppert, A. R. Sanger (J. Chem. Soc. A 1971 1314/20).Google Scholar
  819. [2]
    G. Fachinetti, C. Floriani (J. Chem. Soc. Dalton Trans. 1974 2433/6).Google Scholar
  820. [3]
    R. Taube, D. Steinborn (J. Organometal. Chem. 65 [1974] C9/C12).Google Scholar
  821. [4]
    Snamprogetti S.p.A., G. Fachinetti, C. Floriani (Ger. Offen. 2521923 [1974/75]).Google Scholar
  822. [5]
    A. A. Pasynskii, I. L Eremenko, V. M. Novotortsev, Yu. V. Rakitin, O. G. Ellert, V. T. Kalinnikov, G. G. Aleksandrov, Yu. T. Struchkov (8th Intern. Conf. Organometal. Chem., Kyoto, Japan, 1977, Abstr. 1 A 38).Google Scholar
  823. [6]
    A. A. Pasynskii, I. L Eremenko, Yu. V. Skripkin, V. T. Kalinnikov (Koord. Khim. 3 [1977] 1511/5Google Scholar
  824. [6a]
    A. A. Pasynskii, I. L Eremenko, Yu. V. Skripkin, V. T. Kalinnikov Soviet J. Coord. Chem. 3 [1977] 1177/80).Google Scholar
  825. [7]
    D. Steinborn, R. Taube (J. Organometal. Chem. 284 [1985] 395/402).Google Scholar
  826. [8]
    H. A. Harris, A. D. Rae, R. F. Dahl (J. Am. Chem. Soc. 109 [1987] 4739/41).Google Scholar
  827. [1]
    R. S. P. Coutts, P. C. Wailes (Australian J. Chem. 21 [1968] 2199/202).Google Scholar
  828. [2]
    E. C. Alyea, D. C. Bradley, M. F. Lappert, A. R. Sanger (J. Chem. Soc. D 1969 1064/5).Google Scholar
  829. [3]
    J. G. Kenworthy, J. Myatt, P. F. Todd (J. Chem. Soc. B 1970 791/4).Google Scholar
  830. [4]
    M. F. Lappert, A. R. Sanger (J. Chem. Soc. A 1971 874/7).Google Scholar
  831. [5]
    M. F. Lappert, A. R. Sanger (J. Chem. Soc. A 1971 1314/20).Google Scholar
  832. [6]
    C. R. Bennett, D. C. Bradley (J. Chem. Soc. Chem. Commun. 1974 29/30).Google Scholar
  833. [7]
    L E. Manzer (J. Organometal. Chem. 102 [1975] 167/74).Google Scholar
  834. [8]
    R. S. P. Coutts (Australian J. Chem. 29 [1976] 1105/10).Google Scholar
  835. [9]
    J. N. Armor (Inorg. Chem. 17 [1978] 203/13).Google Scholar
  836. [10]
    B. F. Fieselmann, G. D. Stucky (Inorg. Chem. 17 [1978] 2074/7).Google Scholar
  837. [11]
    B. F. Fieselmann, D. N. Hendrickson, G. D. Stucky (Inorg. Chem. 17 [1978] 2078/84).Google Scholar
  838. [12]
    B. F. Fieselmann (Diss. Univ. Illinois, Urbana-Champaign 1977; Diss. Abstr. Intern. B 38 [1978] 4800).Google Scholar
  839. [13]
    G. Fachinetti, C. Biran, C. Floriani, A. Chiesi-Villa, C. Guastini (J. Chem. Soc. Dalton Trans. 1979 792/800).Google Scholar
  840. [14]
    M. Pasquali, C. Floriani, A. Chiesi-Villa, C. Guastini (J. Am. Chem. Soc. 101 [1979] 4740/2).Google Scholar
  841. [15]
    D. R. Corbin, W. S. Willis, E. N. Duesler, G. D. Stucky (J. Am. Chem. Soc. 102 [1980] 5969/71).Google Scholar
  842. [16]
    L M. Kachapina, G. A. Kichigina, T. A. Bazhenova (Opt. Spektroskopiya 48 [1980] 250/5Google Scholar
  843. [16]
    L M. Kachapina, G. A. Kichigina, T. A. Bazhenova Opt. Spectrosc. [USSR] 48 [1980] 141/4).Google Scholar
  844. [17]
    D. R. Corbin (Diss. Univ. Illinois, Urbana-Champaign 1980; Diss. Abstr. Intern. B 41 [1981] 4109).Google Scholar
  845. [18]
    B. Klei, J. H. Teuben, H. J. de Liefde Meijer (J. Chem. Soc. Chem. Commun. 1981 342/4).Google Scholar
  846. [19]
    M. Pasquali, C. Floriani, A. Chiesi-Villa, C. Guastini (Inorg. Chem. 20 [1981] 349/55).Google Scholar
  847. [20]
    D. R. Corbin, G. D. Stucky, W. S. Willis, E. G. Sherry (J. Am. Chem. Soc. 104 [1982] 4298/9).Google Scholar
  848. [21]
    E. Klei, J. H. Teuben, H. J. de Liefde Meijer, E. J. Kwak, A. P. Bruins (J. Organometal. Chem. 224 [1982] 327/39).Google Scholar
  849. [22]
    V. N. Borshch, A. F. Shestakov (Zh. Fiz. Khim. 56 [1982] 1546/7Google Scholar
  850. [22]
    V. N. Borshch, A. F. Shestakov Russ. J. Phys. Chem. 56 [1982] 944/5).Google Scholar
  851. [23]
    H. A. Harris, A. D. Rae, L F. Dahl (J. Am. Chem. Soc. 109 [1987] 4739/41).Google Scholar
  852. [24]
    J. W. Pattiasina, H. J. Heeres, F. van Bolhuis, A. Meetsma, J. H. Teuben, A. L. Spek (Organometallics 6 [1987] 1004/10).Google Scholar
  853. [25]
    J. S. Merola, K. S. Campo, R. A. Gentile, M. A. Modrick, S. Zentz (Organometallics 3 [1984] 334/7).Google Scholar
  854. [26]
    D. Cozak, A. Mardhy, A. Momeau (Can. J. Chem. 64 [1986] 751/9).Google Scholar
  855. [1]
    K. Issleib, H. Häckert (Z. Naturforsch. 21b [1966] 519/21).Google Scholar
  856. [2]
    J. G. Kenworthy, J. Myatt, P. F. Todd (Chem. Commun. 1969 263/4).Google Scholar
  857. [3]
    J. G. Kenworthy, J. Myatt, P. F. Todd (J. Chem. Soc. B 1970 791/4).Google Scholar
  858. [4]
    M. L. H. Green, C. R. Lucas (J. Chem. Soc. Dalton Trans. 1972 1000/3).Google Scholar
  859. [5]
    S. R. Wade, M. G. H. Wallbridge, G. R. Willey (J. Chem. Soc. Dalton Trans. 1983 2555/9).Google Scholar
  860. [6]
    L P. Battaglia, M. Nardelli, C. Pelizzi, G. Predieri, G. P. Chiusoli (J. Organometal. Chem. 259 [1981] C7/C9).Google Scholar
  861. [7]
    L P. Battaglia, A. B. Corradi, M. Nardelli (Inorg. Chim. Acta 50 [1981] 125/9).Google Scholar
  862. [8]
    R. Payne, J. Hachgenei, G. Fritz, D. Fenske (Z. Naturforsch. 41b [1986] 1535/40).Google Scholar
  863. [1]
    B. F. Fieselmann, D. N. Hendrickson, G. D. Stucky (Inorg. Chem. 17 [1978] 1841/8).Google Scholar
  864. [2]
    D. R. Corbin, L. C. Francesconi, D. N. Hendrickson, G. D. Stucky (J. Chem. Soc. Chem. Commun. 1979 248/9).Google Scholar
  865. [3]
    D. R. Corbin, L. C. Francesconi, D. N. Hendrickson, G. D. Stucky (Inorg. Chem. 18 [1979] 3069/74).Google Scholar
  866. [4]
    L. C. Francesconi, D. R. Corbin, D. N. Hendrickson, G. D. Stucky (Inorg. Chem. 18 [1979] 3074/80).Google Scholar
  867. [5]
    D. R. Corbin, L. C. Francesconi, D. N. Hendrickson, G. D. Stucky (Inorg. Chem. 20 [1981] 2084/9).Google Scholar
  868. [6]
    J. C. Leblanc, C. Moise, A. Maisonnat, R. Poilblanc, C. Charrier, F. Mathey (J. Organometal. Chem. 231 [1982] C43/C48).Google Scholar
  869. [1]
    R. S. P. Coutts, J. R. Surtees (Australian J. Chem. 19 [1966] 387/92).Google Scholar
  870. [2]
    E. Samuel, J. F. Harrod (J. Am. Chem. Soc. 106 [1984] 1859/60).Google Scholar
  871. [3]
    C. Aitken, J. F. Harrod, E. Samuel (J. Organometal. Chem. 279 [1985] C11/C13).Google Scholar
  872. [4]
    C. T. Aitken, J. F. Harrod, E. Samuel (J. Am. Chem. Soc. 108 [1986] 4059/66).Google Scholar
  873. [5]
    J. F. Harrod, S. Sung Yun (Organometallics 6 [1987] 1381/7).Google Scholar
  874. [1]
    E. I. du Pont de Nemours & Co., J. C. Thomas, G. M. Whitman (U.S. 2983740 [1953/61]).Google Scholar
  875. [2]
    G. Wilkinson, J. M. Birmingham (J. Am. Chem. Soc. 76 [1954] 4281/4).Google Scholar
  876. [3]
    H. Nöth, R. Hartwimmer (Chem. Ber. 93 [1960] 2246/51).Google Scholar
  877. [4]
    E. Wiberg, H. Pink (unpublished results from [3]).Google Scholar
  878. [5]
    R. N. Hammer, J. S. Skelcey, J. B. Kinsinger(Abstr. Papers 141 st Meeting Am. Chem. Soc, Washington, D.C., 1962, p. 6M).Google Scholar
  879. [6]
    J. S. Skelcey (Diss. Michigan State Univ. 1961; Diss. Abstr. 22 [1962] 4177).Google Scholar
  880. [7]
    American Cyanamid Co., S. A. Giddings (U.S. 3220987 [1963/65]).Google Scholar
  881. [8]
    American Cyanamid Co., S. A. Giddings (U.S. 3226369 [1963/65]).Google Scholar
  882. [9]
    S. A. Giddings (Inorg. Chem. 5 [1964] 684/7).Google Scholar
  883. [10]
    H. C. Beachell, S. A. Butter (Inorg. Chem. 4 [1965] 1133/40).Google Scholar
  884. [11]
    R. S. P. Coutts, J. R. Surtees (Australian J. Chem. 19 [1966] 387/92).Google Scholar
  885. [12]
    R. S. P. Coutts, J. R. Surtees, J. M. Swan, P. C. Wailes (Australian J. Chem. 19 [1966] 1377/80).Google Scholar
  886. [13]
    A. N. Nesmeyanov, E. I. Fedin, O. V. Nogina, N. S. Kochetkova, V. A. Dubovitsky, P. V. Petrovsky (Tetrahedron Suppl. No. 8 [1966] 389/98).Google Scholar
  887. [14]
    E. Samuel (Bull. Soc. Chim. France 1966 3548/64).Google Scholar
  888. [15]
    R. Coutts, P. C. Wailes (Inorg. Nuci. Chem. Letters 3 [1967] 1/5).Google Scholar
  889. [16]
    S. A. Giddings (Inorg. Chem. 6 [1967] 849/50).Google Scholar
  890. [17]
    A. N. Nesmeyanov, O. V. Nogina, V. A. Dubovitskii (Izv. Akad. Nauk SSSR Ser. Khim. 1968 527/34; Bull. Acad. Sci. USSR Div. Chem. Sci. 1968 514/20).Google Scholar
  891. [18]
    E. Samuel (J. Organometal. Chem. 19 [1969] 87/92).Google Scholar
  892. [19]
    R. S. P. Coutts, P. C. Wailes (Australian J. Chem. 24 [1971] 1075/8).Google Scholar
  893. [20]
    M. L. H. Green, C. R. Lucas (J. Chem. Soc. Dalton Trans. 1972 1000/3).Google Scholar
  894. [21]
    T. Chivers, E. D. Ibrahim (Can. J. Chem. 51 [1973] 815/20).Google Scholar
  895. [22]
    A. Glivicky, J. D. McCowan (Can. J. Chem. 51 [1973] 2609/12).Google Scholar
  896. [23]
    D. Nath, R. K. Sharma, A. N. Bhat (Inorg. Chim. Acta 20 [1976] 109/11).Google Scholar
  897. [24]
    F. Bottomley, H. H. Brintzinger (J. Chem. Soc. Chem. Commun. 1978 234/5).Google Scholar
  898. [25]
    B. Stutte, V. Bätzel, R. Boese, G. Schmid (Chem. Ber. 111 [1978] 1603/18).Google Scholar
  899. [26]
    H. Surer, S. Claude, A. Jacot-Guillarmod (Helv. Chim. Acta 61 [1978] 2956/7).Google Scholar
  900. [27]
    U. Thewalt, B. Kebbel (J. Organometal. Chem. 150 [1978] 59/66).Google Scholar
  901. [28]
    U. Thewalt, G. Schleussner (Angew. Chem. 90 [1978] 559/60).Google Scholar
  902. [29]
    N. A. Yakovleva, G. L Soloveichik, B. M. Bulychev (Izv. Akad. Nauk SSSR Ser. Khim. 1978 1409/12; Bull. Acad. Sci. USSR Div. Chem. Sci. 1978 1228/30).Google Scholar
  903. [30]
    J. Besancon, D. Camboli (Compt. Rend. C 288 [1979] 121/3).Google Scholar
  904. [31]
    K. Döppert (J. Organometal. Chem. 178 [1979] C3/C4).Google Scholar
  905. [32]
    G. Fachinetti, C. Floriani, A. Chiesi-Villa, C. Guastini (J. Am. Chem. Soc. 101 [1979] 1767/75).Google Scholar
  906. [33]
    H. Köpf, P. Köpf-Maier (Ger. Offen. 2 923 334 [1979/80]).Google Scholar
  907. [34]
    F. Bottomley, I. J. B. Lin, M. Mukaida (J. Am. Chem. Soc. 102 [1980] 5238/42).Google Scholar
  908. [35]
    K. Döppert, R. Sanchez-Delgado (J. Organometal. Chem. 210 [1980] C9/C10).Google Scholar
  909. [36]
    K. Döppert (Makromol. Chem. Rapid Commun. 1 [1980] 519/22).Google Scholar
  910. [37]
    Y. Le Page, J. D. McCowan, B. K. Hunter, R. D. Heyding (J. Organometal. Chem. 193 [1980] 201/7).Google Scholar
  911. [38]
    J. A. Marsella, K. G. Moloy, K. G. Caulton (J. Organometal. Chem. 201 [1980] 389/98).Google Scholar
  912. [39]
    F. Bottomley, I. J. B. Lin (J. Chem. Soc. Dalton Trans. 1981 271/5).Google Scholar
  913. [40]
    F. Bottomley, J. Darkwa, G. Egharevba, I. J. B. Lin, M. Mukaida, D. Paez, P. S. White (10th Intern. Conf. Organometal. Chem., Toronto 1981, Abstr., p. 280).Google Scholar
  914. [41]
    H. Köpf, S. Grabowski, R. Voigtländer (J. Organometal. Chem. 216 [1981] 185/90).Google Scholar
  915. [42]
    U. Thewalt, H.-P. Klein (Z. Anorg. Allgem. Chem. 479 [1981] 113/8).Google Scholar
  916. [43]
    U. Thewalt, H.-P. Klein (10th Intern. Conf. Organometal. Chem., Toronto 1981, Abstr., p. 275).Google Scholar
  917. [44]
    F. Senocq, M. Basso-Bert, R. Choukroun, D. Gervais (J. Organometal. Chem. 297 [1985] 155/8).Google Scholar
  918. [45]
    S. G. Davies, S. E. Thomas (Synthesis 1984 1027/9).Google Scholar
  919. [46]
    G. Fochi, C. Floriani (J. Chem. Soc. Dalton Trans. 1984 2577/80).Google Scholar
  920. [47]
    P. Köpf-Maier, S. Grabowski, H. Köpf (Eur. J. Med. Chem. Chim.Therap. 19 [1984] 347/52).Google Scholar
  921. [48]
    L. F. Cannizzo, R. H. Grubbs (J. Org. Chem. 50 [1985] 2316/23).Google Scholar
  922. [49]
    H.-P. Klein, U. Thewalt, K. Döppert, R. Sanchez-Delgado (J. Organometal. Chem. 236 [1982] 189/95).Google Scholar
  923. [50]
    M. Kilner, G. Parkin (J. Organometal. Chem. 302 [1986] 181/91).Google Scholar
  924. [51]
    K. Berhalter, U. Thewalt (J. Organometal. Chem. 332 [1987] 123/33).Google Scholar
  925. [1]
    H. Köpf, K.H. Räthlein (Angew. Chem. 81 [1969] 1000/1Google Scholar
  926. [1]
    H. Köpf, K.H. Räthlein Angew. Chem. Intern. Ed. Engl. 8 [1969] 980/1).Google Scholar
  927. [2]
    G. Fochi, C. Floriani (J. Chem. Soc. Dalton Trans. 1984 2577/80).Google Scholar
  928. [3]
    Guixang Fu, Yuanwei Wu, Xiaoyun Xu, Yancheng Zhang, Peiquan Lu (Youji Huaxue 1984 No. 3, pp. 212/6 from CA. 101 [1984] No. 151991).Google Scholar
  929. [4]
    H.-P. Klein, K. Döppert, U. Thewalt (J. Organometal. Chem. 280 [1985] 203/13).Google Scholar
  930. [1]
    C. M. Bolinger, T. B. Rauchfuss, S. R. Wilson (J. Am. Chem. Soc. 103 [1981] 5620/1).Google Scholar
  931. [2]
    C. M. Bolinger, J. E. Hoots, T. B. Rauchfuss (Organometallics 1 [1982] 223/5).Google Scholar
  932. [3]
    A. Shaver, J. M. McCall (Organometallics 3 [1984] 1823/9).Google Scholar
  933. [4]
    C. J. Ruffing, T. B. Rauchfuss (Organometallics 4 [1985] 524/8).Google Scholar
  934. [5]
    M. Draganjac, T. R. Rauchfuss (Angew. Chem. 97 [1985] 745/60).Google Scholar
  935. [6]
    D. M. Giolando, T. B. Rauchfuss, A. L Rheingold, S. R. Wilson (Organometallics 6 [1987] 667/75).Google Scholar
  936. [7]
    D. M. Giolando, T. B. Rauchfuss (unpublished from [5]).Google Scholar
  937. [8]
    H. A. Harris, A. D. Rae, L. F. Dahl (J. Am. Chem. Soc. 109 [1987] 4739/41).Google Scholar
  938. [1]
    R. S. P. Coutts, J. R. Surtees (Australian J. Chem. 19 [1966] 387/92).Google Scholar
  939. [2]
    R. S. P. Coutts, P. C. Wailes (Australian J. Chem. 24 [1971] 1075/8).Google Scholar
  940. [3]
    E. J. M. de Boer, J. H. Teuben (J. Organometal. Chem. 153 [1978] 53/7).Google Scholar
  941. [4]
    M. Pasquali, C. Floriani, A. Chiesi-Villa, C. Guastini (Inorg. Chem. 20 [1981] 349/55).Google Scholar
  942. [5]
    S. Renaud, Y. Mugnier, L Roullier, E. Laviron (J. Organometal. Chem. 309 [1986] C11/C14).Google Scholar
  943. [1]
    G. Hencken, E. Weiss (Chem. Ber. 106 [1973] 1747/51).Google Scholar
  944. [2]
    G. Fochi, C. Floriani (J. Chem. Soc. Dalton Trans. 1984 2577/80).Google Scholar
  945. [1]
    H. Surer, S. Claude, A. Jacot-Guillarmod (Helv. Chim. Acta 61 [1978] 2956/7).Google Scholar
  946. [2]
    M.D. Rausch, DJ. Sikora, D.C. Hrncir, W.E. Hunter, J.L Atwood (Inorg. Chem. 19 [1980] 3817/21).Google Scholar
  947. [3]
    B. Demerseman, P.H. Dixneuf (J. Chem. Soc. Chem. Commun. 1981 665/6).Google Scholar
  948. [4]
    V.B. Shur, S.Z. Bemadyuk, V.V. Burlakov, V.G. Andrianov, A.I. Yanovsky, Yu.T. Struchkov, M.E. Vol’pin (J. Organometal. Chem. 243 [1983] 157/63).Google Scholar
  949. [5]
    M.R. Awang, R.D. Barr, M. Green, JAK. Howard, T.B. Marder, F.G.A. Stone (J. Chem. Soc. Dalton Trans. 1985 2009/16).Google Scholar
  950. [6]
    F. Senocq, M. Basso-Bert, R. Choukroun, D. Gervais (J. Organometal. Chem. 297 [1985] 155/8).Google Scholar
  951. [7]
    V.B. Shur, V.V. Burlakov, M.E. Vol’pin (12th Intern. Conf. Organometal. Chem., Vienna 1985, Abstr., p. 132).Google Scholar
  952. [1]
    E. Klei, J. H. Teuben (J. Organometal. Chem. 222 [1981] 79/88).Google Scholar
  953. [2]
    E. Klei, J. H. Telgen, J. H. Teuben (J. Organometal. Chem. 209 [1981] 297/307).Google Scholar
  954. [3]
    L F. Cannizzo, R. H. Grubbs (J. Org. Chem. 50 [1985] 2316/23).Google Scholar
  955. [1]
    P.-B. Hong, K. Sonogashira, N. Hagihara (Bull. Chem. Soc. Japan 39 [1966] 1821).Google Scholar
  956. [2]
    G. Fachinetti, C. Biran, C. Floriani, A. Chiesi-Villa, C. Guastini (Inorg. Chem. 17 [1978] 2995/3002).Google Scholar
  957. [3]
    G. Fachinetti, C. Biran, C. Floriani, A. Chiesi-Villa, C. Guastini (J. Am. Chem. Soc. 100 [1978] 1921/2).Google Scholar
  958. [1]
    A. E. Shilov, A. K. Shilova, E. F. Kvashina (Kinetika Kataliz 10 [1969] 1402Google Scholar
  959. [1a]
    A. E. Shilov, A. K. Shilova, E. F. Kvashina Kinet. Catal. [USSR] 10 [1969] 1164).Google Scholar
  960. [2]
    Yu. G. Borod’ko, E. F. Kvashina, V. B. Panov, A. E. Shilov (Kinetika Kataliz 14 [1973] 255/7Google Scholar
  961. [2]
    Yu. G. Borod’ko, E. F. Kvashina, V. B. Panov, A. E. Shilov Kinet. Catal. [USSR] 14 [1973] 214/5).Google Scholar
  962. [3]
    A. E. Shilov, A. K. Shilova, E. F. Kvashina,T. A. Vorontsova(Chem. Commun. 19711590/1).Google Scholar
  963. [4]
    J. H. Teuben, H. J. de Liefde Meijer (Reci. Trav. Chim. 90 [1971] 360/3).Google Scholar
  964. [5]
    J. H. Teuben, H. J. de Liefde Meijer (5th Intern. Conf.Organometal. Chem., Moscow 1971, Vol. 1, Abstr., p. 182).Google Scholar
  965. [6]
    J. H. Teuben, H. J. de Liefde Meijer (J. Organometal. Chem. 46 [1972] 313/21).Google Scholar
  966. [7]
    Yu. G. Borodko, I. N. Ivleva, L. M. Kachapina, E. F. Kvashina, A. K. Shilova, A. E. Shilov (J. Chem. Soc. Chem. Commun. 1973 169/70).Google Scholar
  967. [8]
    J. H. Teuben (J. Organometal. Chem. 57 [1973] 159/67).Google Scholar
  968. [9]
    T. Chivers, E. D. Ibrahim (J. Organometal. Chem. 77 [1974] 241/6).Google Scholar
  969. [10]
    V. B. Panov, Yu. M. Shul’ga, E. F. Kvashina, Yu. G. Borod’ko (Kinetika Kataliz 15 [1974] 518/20Google Scholar
  970. [10a]
    V. B. Panov, Yu. M. Shul’ga, E. F. Kvashina, Yu. G. Borod’ko Kinet. Catal. [USSR] 15 [1974] 458/9).Google Scholar
  971. [11]
    J. H. Teuben (J. Organometal. Chem. 69 [1974] 241/8).Google Scholar
  972. [12]
    F. W. van der Weij, J. H. Teuben, H. J. de Liefde Meijer (7th Intern. Conf. Organometal. Chem., Venice 1975, Abstr., p. 124).Google Scholar
  973. [13]
    F. W. van der Weij, J. H. Teuben (J. Organometal. Chem. 105 [1976] 203/7).Google Scholar
  974. [14]
    F. W. van der Weij, J. H. Teuben (J. Organometal. Chem. 120 [1976] 223/8).Google Scholar
  975. [15]
    R. Hoffmann, D.L Torn, A. E. Shilov (Koord. Khim. 3 [1977] 1260/4Google Scholar
  976. [15]
    R. Hoffmann, D.L Torn, A. E. Shilov Soviet J. Coord. Chem. 3 [1978] 984/7).Google Scholar
  977. [16]
    F. W. van der Weij, H. Scholtens, J. H. Teuben (J. Organometal. Chem. 127 [1977] 299/304).Google Scholar
  978. [17]
    E. J. M. de Boer, J. H. Teuben (J. Organometal. Chem. 166 [1979] 193/8).Google Scholar
  979. [18]
    J. D. Zeinstra, J. H. Teuben, F. Jellinek (J. Organometal. Chem. 170 [1979] 39/50).Google Scholar
  980. [19]
    L. M. Kachapina, G. A. Kichigina, T. A. Bazhenova (Opt. Spektroskopiya 48 [1980] 250/5Google Scholar
  981. [19a]
    L. M. Kachapina, G. A. Kichigina, T. A. Bazhenova Opt. Spectrosc. [USSR] 48 [1980] 141/4).Google Scholar
  982. [20]
    E. Klei, J. H. Teuben (J. Organometal. Chem. 222 [1981] 79/88).Google Scholar
  983. [21]
    V. N. Borshch, A. F. Shestakov (Zh. Fiz. Khim. 56 [1982] 1546/7Google Scholar
  984. [21]
    V. N. Borshch, A. F. Shestakov Russ. J. Phys. Chem. 56 [1982] 944/5).Google Scholar
  985. [22]
    V. B. Shur, E. G. Berkovich, V. S. Lenenko, L. I. Vyshinskaya, G. A. Vasil’eva, M. E. Vol’pin (Izv. Akad. Nauk SSSR Ser. Khim. 1987 2392/3; Bull. Acad. Sci. USSR Div. Chem. Sci. 1987 2220).Google Scholar
  986. [1]
    E. J. M. de Boer, J. H. Teuben (J. Organometal. Chem. 140 [1977] 41/5).Google Scholar
  987. [2]
    E. J. M. de Boer, J. H. Teuben (J. Organometal. Chem. 153 [1978] 53/7).Google Scholar
  988. [3]
    B. Demerseman, M. Pankowski, G. Bouquet, M. Bigorgne (J. Organometal. Chem. 117 [1976] C10/C12).Google Scholar
  989. [1]
    J. H. Teuben, H. J. de Liefde Meijer (J. Organometal. Chem. 17 [1969] 87/93).Google Scholar
  990. [2]
    E. Heins, H. Hinck, W. Kaminsky, G. Oppermann, P. Raulinat, H. Sinn (Makromol. Chem. 134 [1970] 1/22).Google Scholar
  991. [3]
    J. E. Bercaw, R. H. Marvich, L G. Bell, H. H. Brintzinger (J. Am. Chem. Soc. 94 [1972] 1219/38).Google Scholar
  992. [4]
    D. G. Sekutowski, G. D. Stucky (7th Intern. Conf. Organometal. Chem., Venice 1975, Abstr., p. 4).Google Scholar
  993. [5]
    Exxon Research and Engineering Co., J. A. Ewen, H. C. Welborn (Eur. Appi. 0129368 [1984]).Google Scholar
  994. [6]
    J. H. Teuben, H. J. de Liefde Meijer (Rec. J. Royal Neth. Chem. Soc. 99 [1980] 1/5).Google Scholar
  995. [7]
    D. G. Sekutowski, G. D. Stucky (J. Am. Chem. Soc. 98 [1976] 1376/82).Google Scholar
  996. [8]
    D. G. Sekutowski (Diss. Univ. Illinois 1975; Diss. Abstr. Intern. B 36 [1976] 4469).Google Scholar
  997. [9]
    M. D. Rausch, W. H. Boon, H. G. Alt (J. Organometal. Chem. 141 [1977] 299/312).Google Scholar
  998. [10]
    E. Samuel, P. Maillard, C. Giannotti (J. Organometal. Chem. 142 [1977] 289/98).Google Scholar
  999. [11]
    G. Fachinetti, C. Floriani, A. Chiesi-Villa, C. Guastini (J. Am. Chem. Soc. 101 [1979] 1767/75).Google Scholar
  1000. [12]
    J. Holton, M. F. Läppert, D. G. H. Ballard, R. Pearce, J. L. Atwood, W. E. Hunter (J. Chem. Soc. Dalton Trans. 1979 45/53).Google Scholar
  1001. [13]
    F. Senocq, M. Basso-Bert, R. Choukroun, D. Gervais (J. Organometal. Chem. 297 [1985] 155/8).Google Scholar
  1002. [14]
    K. C. Ott, R. H. Grubbs (J. Am. Chem. Soc. 103 [1981] 5922/3).Google Scholar
  1003. [15]
    P. J. Krusic, F. N. Tebbe (Inorg. Chem. 21 [1982] 2900/2).Google Scholar
  1004. [16]
    J. B. Lee, K. C. Ott, R. H. Grubbs (J. Am. Chem. Soc. 104 [1982] 7491/6).Google Scholar
  1005. [17]
    D. A. Straus, R. H. Grubbs (Organometallics 1 [1982] 1658/61).Google Scholar
  1006. [18]
    S. A. Cohen, P. R. Auburn, J. E. Bercaw (J. Am. Chem. Soc. 105 [1983] 1136/43).Google Scholar
  1007. [19]
    J. J. Eisch, A. Piotrowski (Tetrahedron Letters 24 [1983] 2043/6).Google Scholar
  1008. [20]
    H.-O. Fröhlich, H. Schreer (Z. Chem. [Leipzig] 23 [1983] 348/9).Google Scholar
  1009. [21]
    K. C. Ott (Diss. California Inst. Technol. 1983; Diss. Abstr. Intern. B 43 [1983] 2906).Google Scholar
  1010. [22]
    H. Schreer, H.-O. Fröhlich (Z. Chem. [Leipzig] 23 [1983] 347/8).Google Scholar
  1011. [23]
    M. Etienne, R. Choukroun, M. Basso-Bert, F. Dahan, D. Gervais (Nouv. J. Chim. 8 [1984] 531/5).Google Scholar
  1012. [24]
    B. Demerseman, R. Mane, P. H. Dixneuf (J. Chem. Soc. Chem. Commun. 1984 1394/6)Google Scholar
  1013. [25]
    B. J. J. van de Heisteeg, G. Schat, O. S. Akkerman, F. Bickelhaupt (Tetrahedron Letters 25 [1984] 5191/2).Google Scholar
  1014. [26]
    B. J. J. van de Heisteeg, G. Schat, O. S. Akkerman, F. Bickelhaupt (Organometallics 4 [1985] 1141/2).Google Scholar
  1015. [27]
    B. J. J. van de Heisteeg, G. Schat, O. S. Akkerman, F. Bickelhaupt (J. Organometal. Chem. 310 [1986] C 25/C 28).Google Scholar
  1016. [28]
    D. R. Corbin, J. L. Atwood, G. D. Stucky (Inorg. Chem. 25 [1986] 98/102).Google Scholar
  1017. [29]
    B. J. J. van de Heisteeg, G. Schat, O. S. Akkerman, F. Bickelhaupt (J. Organometal. Chem. 308 [1986] 1/10).Google Scholar
  1018. [30]
    H.-O. Fröhlich, H. Schreer (Ger. [East] 219488 [1983/85]).Google Scholar
  1019. [31]
    H. Schreer, H.-O. Fröhlich (Z. Chem. [Leipzig] 24 [1984] 442/3).Google Scholar
  1020. [32]
    B. J. J. van de Heisteeg, G. Schat, O. S. Akkerman, F. Bickelhaupt (Organometallics 5 [1986] 1749/50).Google Scholar
  1021. [33]
    B. J. J. van de Heisteeg, G. Schat, O. S. Akkerman, F. Bickelhaupt (Tetrahedron 28 [1987] 6493/6).Google Scholar
  1022. [1]
    Allied Chemical Corporation, G. P. Pez (Ger Offen. 2243664 [1971/73]).Google Scholar
  1023. [2]
    J. H. Teuben (J. Organometal. Chem. 69 [1974] 241/8).Google Scholar
  1024. [3]
    Allied Chemical Corporation, G. P. Pez (U. S. 4024169 [1975/77]).Google Scholar
  1025. [4]
    Allied Chemical Corporation, J.N. Armor, G.P. Pez (U.S. 4046790 [1976/77]).Google Scholar
  1026. [5]
    G. P. Pez (J. Am. Chem. Soc. 98 [1976] 8072/8).Google Scholar
  1027. [6]
    G. P. Pez, S. C. Kwan (J. Am. Chem. Soc. 98 [1976] 8079/83).Google Scholar
  1028. [7]
    G. P. Pez, S. C. Kwan (Ann. N.Y. Acad. Sci. 295 [1977] 174/85).Google Scholar
  1029. [8]
    G. P. Pez (J. Chem. Soc. Chem. Commun. 1977 560/1).Google Scholar
  1030. [9]
    J.N Armor (Inorg. Chem. 17 [1978] 203/13).Google Scholar
  1031. J.N Armor (Inorg. Chem. 17 [1978] 213/8).Google Scholar
  1032. [11]
    S. L Hsu, A. J. Signorelli, G. P. Pez, R. H. Baughman (J. Chem. Phys. 69 [1978] 106/11).Google Scholar
  1033. [12]
    G. A. Razuvaev, V. N. Latyaeva, L. I. Vishinskaya, T. P. Samarina (J. Organometal. Chem. 164 [1979] 41/6).Google Scholar
  1034. [13]
    G. P. Pez, J. N. Armor (Advan. Organometal. Chem. 19 [1981] 1/50).Google Scholar
  1035. [14]
    G. P. Pez, P. Apgar, R. K. Crissey (J. Am. Chem. Soc. 104 [1982] 482/90).Google Scholar
  1036. [15]
    E. E. van Tamelen, B. C. Webber (Proc. Natl. Acad. Sci. USA 78 [1981] 1321/2).Google Scholar
  1037. [16]
    L. B. Kool, M. D. Rausch, H. G. Alt, M. Herberhold, U. Thewalt, B. Honold (J. Organometal. Chem. 310 [1986] 27/34).Google Scholar
  1038. [17]
    J. J. Singh, G. Singh, N. Kumar, R. K. Sharma, R. K. Multani (Indian J. Chem. A 21 [1982] 631/4).Google Scholar
  1039. [1]
    H. Sinn, E. Kolk (J. Organometal. Chem. 6 [1966] 373/82).Google Scholar
  1040. [2]
    E. Heins, H. Hinck, W. Kaminsky, G. Oppermann, P. Raulinat, H. Sinn (Makromol. Chem. 134 [1970] 1/22).Google Scholar
  1041. [3]
    H. Sinn, W. Kaminsky (Advan. Organometal. Chem. 18 [1980] 99/149).Google Scholar
  1042. [4]
    F. Bottomley, I. J. B. Lin, M. Mukaida (J. Am. Chem. Soc. 102 [1980] 5238/42).Google Scholar
  1043. [1]
    F. Bottomley, I. J. B. Lin, P. S. White (J. Am. Chem. Soc. 103 [1981] 703/4).Google Scholar
  1044. [2]
    F. Bottomley, J. Darkwa, G. Egharevba, I. J. B. Lin, M. Mukaida, D. Paez, P. S. White (10th Intern. Conf. Organometal. Chem., Toronto 1981, Abstr., p. 280).Google Scholar
  1045. [3]
    F. Bottomley, G. O. Egharevba, I. J. B. Lin, P. S. White (Organometallics 4 [1985] 550/3).Google Scholar
  1046. [1]
    M. L. H. Green, N. J. Hazel, P. D. Grebenik, V. S. B. Mtetwa, K. Prout (J. Chem. Soc. Chem. Commun. 1983 356/8).Google Scholar
  1047. [2]
    C. E. Davies, I. M. Gardiner, J. C. Green, M. L. H. Green, P. D. Grebenik, V. S. B. Mtetwa, K. Prout (J. Chem. Soc. Dalton Trans. 1985 669/83).Google Scholar
  1048. [3]
    M. L. H. Green (Pure Appi. Chem. 56 [1984] 47/58).Google Scholar
  1049. [1]
    Studiengesellschaft Kohle m.b.H., G. Wilke, E. W. Müller, M. Kröner, P. Heimbach, H. Breil (Ger. 1 191 375 [1960/65]).Google Scholar
  1050. [2]
    H. Breil, G. Wilke (Angew. Chem. 78 [1966] 942Google Scholar
  1051. [2a]
    H. Breil, G. Wilke Angew. Chem. Intern. Ed. Engl. 5 [1966] 898).Google Scholar
  1052. [3]
    H. Dietrich, H. Dierks (Angew. Chem. 78 [1966] 943Google Scholar
  1053. [3a]
    H. Dietrich, H. Dierks Angew. Chem. Intern. Ed. Engl. 5 [1966] 899).Google Scholar
  1054. [4]
    H. Dierks, H. Dietrich (Acta Cryst. B 24 [1968] 58/62).Google Scholar
  1055. [5]
    H. Breil (unpublished results from [6]).Google Scholar
  1056. [6]
    H. Lehmkuhl, K. Mehler (J. Organometal. Chem. 25 [1970] C 44/C 46).Google Scholar
  1057. [7]
    H. Lehmkuhl, W. Leuchte, E. Janssen, K. Mehler, S. Kintopf, W. Eisenbach (Angew. Chem. 83 [1971] 917/8Google Scholar
  1058. [7a]
    H. Lehmkuhl, W. Leuchte, E. Janssen, K. Mehler, S. Kintopf, W. Eisenbach Angew. Chem. Intern. Ed. Engl. 10 [1971] 843).Google Scholar
  1059. [8]
    H. Lehmkuhl, E. Janssen, S. Kintopf, W. Leuchte, K. Mehler (Chem. Ing. Tech. 44 [1972] 170/3).Google Scholar
  1060. [9]
    H. K. Hofstee, C. J. Groenenboom, H. O. van Oven, H. J. de Liefde Meijer (J. Organometal. Chem. 85 [1975] 193/7).Google Scholar
  1061. [10]
    G. J. Olthof, H. R. van der Wal (Acta Cryst. A 31 [1975] Suppl., p. S 135).Google Scholar
  1062. [11]
    H. R. van der Wal, F. Overzet, H. O. van Oven, J. L de Boer, H. J. de Liefde Meijer, F. Jeliinek (J. Organometal. Chem. 92 [1975] 329/40).Google Scholar
  1063. [12]
    J. W. Lauher, M. Elian, R. H. Summerville, R. Hoffmann (J. Am. Chem. Soc. 98 [1976] 3219/24).Google Scholar
  1064. [13]
    C. G. Salentine, M. F. Hawthorne (Inorg. Chem. 15 [1976] 2872/82).Google Scholar
  1065. [14]
    S. P. Kolesnikov, J. E. Dobson, P. S. Skell (J. Am. Chem. Soc. 100 [1978] 999).Google Scholar
  1066. [15]
    M. E. E. Veldman, H. R. van der Wal, S. J. Veenstra, H. J. de Liefde Meijer (J. Organometal. Chem. 197 [1980] 59/65).Google Scholar
  1067. [16]
    M. E. E. Meijer-Veldman, H. J. de Liefde Meijer (J. Organometal. Chem. 260 [1984] 199/205).Google Scholar
  1068. [17]
    M. E. E. Meijer-Veldman, Y. Y. Tan, H. J. de Liefde Meijer (Polym. Commun. 26 [1985] 200/2).Google Scholar
  1069. [18]
    Studiengesellschaft Kohle m.b.H., H. Lehmkuhl (Ger. 2007076 [1970/79]).Google Scholar
  1070. [1]
    Union Carbide Corporation, J. C. Brantley (U.S. 2 983 741 [1953/61]).Google Scholar
  1071. [2]
    W. P. Long (private communication from G. W. Watt, L. J. Baye, F. O. Drummond, J. Am. Chem. Soc. 88 [1966] 1138/40).Google Scholar
  1072. [3]
    G. Wilkinson, F. A. Cotton (Chem. Ind. [London] 1954 307/8 from CA. 1955 3834).Google Scholar
  1073. [4]
    G. Wilkinson, J. M. Birmingham (J. Am. Chem. Soc. 76 [1954] 4281/4).Google Scholar
  1074. [5]
    A. K. Fischer, G. Wilkinson (J. Inorg. Nuci. Chem. 2 [1956] 149/52).Google Scholar
  1075. [6]
    The Commonwealth Engineering Co. of Ohio, H. J. Homer (U.S. 2887406 [1956/59]).Google Scholar
  1076. [7]
    The Commonwealth Engineering Co. of Ohio, J. J. Bulloff (U.S. 2898235 [1957/59]).Google Scholar
  1077. [8]
    Ethyl Corp., V. Norman, T. P. Whaley (U.S. 3061465 [1959/62]).Google Scholar
  1078. [9]
    G. A. Razuvaev, V. N. Latyaeva, L. I. Vyshinskaya (Dokl. Akad. Nauk SSSR 134 [1960] 612/4Google Scholar
  1079. [9a]
    G. A. Razuvaev, V. N. Latyaeva, L. I. Vyshinskaya Proc. Acad. Sci. USSR Chem. Sect. 130/135 [1960] 1061/3).Google Scholar
  1080. [10]
    G. A. Razuvaev, V. N. Latyaeva, L. I. Vyshinskaya (Dokl. Akad. Nauk SSSR 138 [1961] 1126/9Google Scholar
  1081. [10a]
    G. A. Razuvaev, V. N. Latyaeva, L. I. Vyshinskaya Proc. Acad. Sci. USSR Chem. Sect. 136/141 [1961] 592/4).Google Scholar
  1082. [11]
    G. A. Razuvaev, V. N. Latyaeva, L. I. Vyshinskaya (Zh. Obshch. Khim. 31 [1961] 2667/74Google Scholar
  1083. [11a]
    G. A. Razuvaev, V. N. Latyaeva, L. I. Vyshinskaya J. Gen. Chem. [USSR] 31 [1961] 2490/6).Google Scholar
  1084. [12]
    K. Clauss, H. Bestian (Liebigs Ann. Chem. 654 [1962] 8/19).Google Scholar
  1085. [13]
    Tokuyama Soda Co. Ltd., K. Machida, I. Hirashima, K. Fukuhara (Japan. 67/3019 [1963/67] from C.A. 67 [1967] No. 11935).Google Scholar
  1086. [14]
    Tokuyama Soda Co. Ltd., M. Ashida, H. Yoshimatsu, K. Imamoto (Japan. 67/13606 [1964/67] from C.A. 68 [1968] No. 50323).Google Scholar
  1087. [15]
    Tokuyama Soda Co. Ltd., K. Azuma, K. Shikata, K. Yokokawa (Japan. 67/22058 [1964/67] from C.A. 68 [1968] No. 40310).Google Scholar
  1088. [16]
    Tokuyama Soda Co. Ltd., K. Azuma, K. Shikata, K. Yokokawa (Japan. 68/13048 [1964/68] from C.A. 70 [1969] No. 58391).Google Scholar
  1089. [17]
    Tokuyama Soda Co. Ltd., K. Azuma, K. Yokokawa (Japan. 68/27410 [1964/68] from C.A. 70 [1969] No. 58409).Google Scholar
  1090. [18]
    L. J. Baye (Diss. Univ. Texas 1963; Diss. Abstr. 24 [1964] 3968).Google Scholar
  1091. [19]
    S. A. Giddings (Inorg. Chem. 5 [1964] 684/7).Google Scholar
  1092. [20]
    Badische Anilin- & Soda-Fabrik A.-G., H. Naarmann (Belg. 670029 [1964/66]).Google Scholar
  1093. [21]
    G. A. Razuvaev, V. N. Latyaeva, L. I. Vyshinskaya (Dokl. Akad. Nauk SSSR 159 [1964] 383/4Google Scholar
  1094. [21a]
    G. A. Razuvaev, V. N. Latyaeva, L. I. Vyshinskaya Dokl. Chem. Proc. Acad. Sci. USSR 154/159 [1964] 1191/2).Google Scholar
  1095. [22]
    A.F. Reid, P. C. Wailes (Australian 290355 [1964/66]).Google Scholar
  1096. [23]
    G. W. Watt, L. J. Baye (J. Inorg. Nuci. Chem. 26 [1964] 2099/102).Google Scholar
  1097. [24]
    K. Azuma, K. Shikata, S. Oba, K. Nishino, T. Matsumura (Kogyo Kagaku Zasshi 68 [1965] 347/52).Google Scholar
  1098. [25]
    Gevaert-Agfa, N. V. (Neth. 6603202 [1965/66]).Google Scholar
  1099. [26]
    G. A. Razuvaev, V. N. Latyaeva, L. I. Vyshinskaya (Zh. Obshch. Khim. 35 [1965] 169/74Google Scholar
  1100. [26]
    G. A. Razuvaev, V. N. Latyaeva, L. I. Vyshinskaya J. Gen. Chem. [USSR] 35 [1965] 171/5).Google Scholar
  1101. [27]
    K. Shikata, K. Nishino, K. Azuma (Kogyo Kagaku Zasshi 68 [1965] 352/8).Google Scholar
  1102. [28]
    K. Shikata, K. Nishino, K. Azuma, Y. Takegami (Kogyo Kagaku Zasshi 68 [1965] 358/62).Google Scholar
  1103. [29]
    K. Shikata, K. Nishino, K. Azuma (Kogyo Kagaku Zasshi 68 [1965] 490/4).Google Scholar
  1104. [30]
    K. Shikata, K. Yokogawa, S. Nakao, K. Azuma (Kogyo Kagaku Zasshi 68 [1965] 1248/51).Google Scholar
  1105. [31]
    K. Shikata, S. Nakao, K. Azuma (Kogyo Kagaku Zasshi 68 [1965] 1251/4).Google Scholar
  1106. [32]
    K. Shikata, T. Ogura, K. Azuma (Kogyo Kagaku Zasshi 68 [1965] 1254/9).Google Scholar
  1107. [33]
    K. Shikata, K. Yokogawa, T. Matsumura, K. Azuma (Kogyo Kagaku Zasshi 68 [1965] 1260/4).Google Scholar
  1108. [34]
    K. Yokokawa, K. Azuma (Bull. Chem. Soc. Japan 38 [1965] 859/60).Google Scholar
  1109. [35]
    E. O. Fischer (private communication from G. W. Watt, L. J. Baye, F. O. Drummond, J. Am. Chem. Soc. 88 [1966] 1138/40).Google Scholar
  1110. [36]
    Gevaert-Agfa, N. V., L. G. Jeurissen, A. J. Conix (Japan. 70/02396 [1966/70]).Google Scholar
  1111. [37]
    G. A. Razuvaev, V. N. Latyaeva, L. I. Vyshinskaya, G. A. Kilyakova (Zh. Obshch. Khim. 36 [1966] 1491/8Google Scholar
  1112. [37]
    G. A. Razuvaev, V. N. Latyaeva, L. I. Vyshinskaya, G. A. Kilyakova J. Gen. Chem. [USSR] 36 [1966] 1496/502).Google Scholar
  1113. [38]
    M. E. Vol’pin, V. B. Shur, V. N. Latyaeva, L. I. Vyshinskaya, L. A. Shul’gaitser (Izv. Akad. Nauk SSSR Ser. Khim. 1966 385; Bull. Acad. Sci. USSR Div. Chem. Sci. 1966 364).Google Scholar
  1114. [39]
    G. W. Watt, L. J. Baye, F. O. Drummond (J. Am. Chem. Soc. 88 [1966] 1138/40).Google Scholar
  1115. [40]
    G. W. Watt, F. O. Drummond (J. Am. Chem. Soc. 88 [1966] 5926/7).Google Scholar
  1116. [41]
    H. H. Brintzinger (J. Am. Chem. Soc. 89 [1967] 6871/6).Google Scholar
  1117. [42]
    F. Calderazzo, J. J. Salzmann, P. Mosimann (Inorg. Chim. Acta 1 [1967] 65/7).Google Scholar
  1118. [43]
    H. A. Martin, F. Jellinek (J. Organometal. Chem. 8 [1967] 115/28).Google Scholar
  1119. [44]
    J.-J. Salzmann, P. Mosimann (Helv. Chim. Acta 50 [1967] 1831/6).Google Scholar
  1120. [45]
    G. Schmid, W. Petz, W. Arloth, H. Nöth (Angew. Chem. 79 [1967] 683/4Google Scholar
  1121. [45]
    G. Schmid, W. Petz, W. Arloth, H. Nöth Angew. Chem. Intern. Ed. Engl. 6 [1967] 696/7).Google Scholar
  1122. [46]
    E. E. van Tamelen, G. Boche, S. W. Eia, R. B. Fechter (J. Am. Chem. Soc. 89 [1967] 5707/8).Google Scholar
  1123. [47]
    P. C. Wailes, H. Weigold (unpublished results from R. S. P. Coutts, P. C. Wailes, Advan. Organometal. Chem. 9 [1970] 135/93,179).Google Scholar
  1124. [48]
    F. O. Drummond (Diss. Univ. Texas, Austin 1968; Diss. Abstr. Intern. B 29 [1968] 1576).Google Scholar
  1125. [49]
    H. Köpf, B. Block (Z. Naturforsch. 23b [1968] 1536/7).Google Scholar
  1126. [50]
    H. Masai, K. Sonogashira, N. Hagihara (Mem. Inst. Sci. Ind. Res. Osaka Univ. 25 [1968] 117/20).Google Scholar
  1127. [51]
    J.-J. Salzmann (Helv. Chim. Acta 51 [1968] 903/6).Google Scholar
  1128. [52]
    Y. Takegami, T. Ueno, T. Suzuki, Y. Fuchizaki (Bull. Chem. Soc. Japan 41 [1968] 2637/40).Google Scholar
  1129. [53]
    E. Bayer, V. Schurig (Chem. Ber. 102 [1969] 3378/90).Google Scholar
  1130. [54]
    J. E. Bercaw, H. H. Brintzinger (J. Am. Chem. Soc. 91 [1969] 7301/6).Google Scholar
  1131. [55]
    S. P. Gubin, S. A. Smirnova (J. Organometal. Chem. 20 [1969] 229/40).Google Scholar
  1132. [56]
    H. A. Martin, R. 0. de Jongh (Chem. Commun. 1969 1366/7).Google Scholar
  1133. [57]
    A. Miyaké, H. Kondo, M. Aoyama (Angew. Chem. 81 [1969] 498/9Google Scholar
  1134. [57a]
    A. Miyaké, H. Kondo, M. Aoyama Angew. Chem. Intern. Ed. Engl. 8 [1969] 520/1).Google Scholar
  1135. [58]
    Toray Industries, Inc., K. Nishio, A. Miyaké (Japan. 73/03836 [1969/73] from CA. 79 [1973] No. 18218).Google Scholar
  1136. [59]
    G. A. Razuvaev, V. N. Latyaeva, L. I. Vyshinskaya (Dokl. Akad. Nauk SSSR 189 [1969] 103/4Google Scholar
  1137. [59]
    G. A. Razuvaev, V. N. Latyaeva, L. I. Vyshinskaya Dokl. Chem. Proc. Acad. Sci. USSR 184/189 [1969] 884/5).Google Scholar
  1138. [60]
    G. A. Razuvaev, V. N. Latyaeva, A. N. Lineva (Dokl. Akad. Nauk SSSR 187 [1969] 340/2Google Scholar
  1139. [60]
    G. A. Razuvaev, V. N. Latyaeva, A. N. Lineva Dokl. Chem. Proc. Acad. Sci. USSR 184/189 [1969] 545/7).Google Scholar
  1140. [61]
    S. A. Smirnova, S. P. Gubin (Izv. Akad. Nauk SSSR Ser. Khim. 1969 1890/7; Bull. Acad. Sci. USSR Div. Chem. Sci. 1969 1750/6).Google Scholar
  1141. [62]
    E. E. van Tamelen, R. B. Fechter, S. W. Schneller, G. Boche, R. H. Greeley, B. Akermark (J.Am. Chem. Soc. 91 [1969] 1551/2).Google Scholar
  1142. [63]
    H. H. Brintzinger, L. S. Baiteli (J. Am. Chem. Soc. 92 [1970] 1105/7).Google Scholar
  1143. [64]
    H. H. Brintzinger, J. E. Bercaw (J. Am. Chem. Soc. 92 [1970] 6182/5).Google Scholar
  1144. [65]
    P. C. Wailes, H. Weigold, A. P. Bell (unpublished results from P. C. Wailes, R. S. P. Coutts, H. Weigold, Organometallic Chemistry of Titanium, Zirconium, and Hafnium, New York — London 1974, pp. 236/7).Google Scholar
  1145. [66]
    G. A. Razuvaev, V. N. Latyaeva, A. N. Lineva (Zh.Obshch. Khim. 40 [1970] 1804/12Google Scholar
  1146. [66]
    G. A. Razuvaev, V. N. Latyaeva, A. N. Lineva J. Gen. Chem. [USSR] 40 [1970] 1789/95).Google Scholar
  1147. [67]
    P. C. Wailes, H. Weigold (unpublished results from R. S. P. Coutts, P. C. Wailes, Advan. Organometal. Chem. 9 [1970] 135/93, 177).Google Scholar
  1148. [68]
    P. C. Wailes, H. Weigold (J. Organometal. Chem. 24 [1970] 713/5).Google Scholar
  1149. [69]
    G. W. Watt, F. O. Drummond (J. Am. Chem. Soc. 92 [1970] 826/8).Google Scholar
  1150. [70]
    D. G. H. Ballard, E. Jones (unpublished results from D. G. H. Ballard, Advan. Catal. 23 [1973] 263/325).Google Scholar
  1151. [71]
    G. Henrici-Olivé, S. Olive (J. Organometal. Chem. 23 [1970] 155/7).Google Scholar
  1152. [72]
    M. F. Läppert, A. R. Sanger (J. Chem. Soc. A 1971 874/7).Google Scholar
  1153. [73]
    R. H. Marvich, H. H. Brintzinger (J. Am. Chem. Soc. 93 [1971] 2046/8).Google Scholar
  1154. [74]
    Allied Chemical Corporation, G. P. Pez (Ger Offen. 2243664 [1971/73]).Google Scholar
  1155. [75]
    G. A. Razuvaev, V. N. Latyaeva, A. N. Lineva (Zh. Obshch. Khim. 41 [1971] 1556/60Google Scholar
  1156. [75]
    G. A. Razuvaev, V. N. Latyaeva, A. N. Lineva J. Gen. Chem. [USSR] 41 [1971] 1560/4).Google Scholar
  1157. [76]
    V. I. Tel’noi, I. B. Rabinovich, V. N. Latyaeva, A. N. Lineva (Dokl. Akad. Nauk SSSR 197 [1971] 1348/50Google Scholar
  1158. [76]
    V. I. Tel’noi, I. B. Rabinovich, V. N. Latyaeva, A. N. Lineva Dokl. Chem. Proc. Acad. Sci. USSR 196/201 [1971] 353/5).Google Scholar
  1159. [77]
    M. E. Vol’pin, A. A. Belyi, V. B. Shur, Yu. I. Lyakhovetsky, R. V. Kudryavtsev, N. N. Bubnov (J. Organometal. Chem. 27 [1971] C5/C8).Google Scholar
  1160. [78]
    J. E. Bercaw, R. H. Marvich, L G. Bell, H. H. Brintzinger (J. Am. Chem. Soc. 94 [1972] 1219/38).Google Scholar
  1161. [79]
    C. Floriani, G. Fachinetti (J. Chem. Soc. Chem. Commun. 1972 790/1).Google Scholar
  1162. [80]
    I. S. Kolomnikov, T. S. Lobeeva, M. E. Vol’pin (Zh. Obshch. Khim. 42 [1972] 2232/6Google Scholar
  1163. [80]
    I. S. Kolomnikov, T. S. Lobeeva, M. E. Vol’pin J. Gen. Chem. [USSR] 42 [1972] 2229/32).Google Scholar
  1164. [81]
    H. A. Martin, M. van Gorkom, R. O. de Jongh (J. Organometal. Chem. 36 [1972] 93/100).Google Scholar
  1165. [82]
    A. Merijanian, T. Mayer, J. F. Helling, F. Klemick (J. Org. Chem. 37 [1972] 3945/7).Google Scholar
  1166. [83]
    G. A. Razuvaev, V. N. Latyaeva, L. I. Vyshinskaya, T. P. Denisova, Yu. P. Gorelov (Dokl. Akad. Nauk SSSR 202 [1972] 1090/2Google Scholar
  1167. [83]
    G. A. Razuvaev, V. N. Latyaeva, L. I. Vyshinskaya, T. P. Denisova, Yu. P. Gorelov Dokl. Chem. Proc. Acad. Sci. USSR 202/207 [1972] 150/1).Google Scholar
  1168. [84]
    G. J. Olthof (J. Organometal. Chem. 128 [1977] 367/73).Google Scholar
  1169. [85]
    E. E. van Tamelen, W. Cretney, N. Klaentschi, J. S. Miller (J. Chem. Soc. Chem. Commun. 1972 481/2).Google Scholar
  1170. [86]
    P. C. Wailes, H. Weigold, A. P. Bell (J. Organometal. Chem. 43 [1972] C32/C34).Google Scholar
  1171. [87]
    D. G. H. Ballard (Advan. Catal. 23 [1973] 263/325).Google Scholar
  1172. [88]
    L. J. Guggenberger (6th Intern. Conf. Organometal. Chem., Amherst, Mass., 1973, Abstr. P- 74).Google Scholar
  1173. [89]
    L. J. Guggenberger, F. N. Tebbe (J. Am. Chem. Soc. 95 [1973] 7870/2).Google Scholar
  1174. [90]
    A. Merijanian, T. Mayer, J. F. Helling (Rev. Latinoam. Quim. 3 [1972] 62/5).Google Scholar
  1175. [91]
    T. R. Nelsen (Diss. State Univ. New York, Buffalo 1973; Diss. Abstr. Intern. B 34 [1973] 1044).Google Scholar
  1176. [92]
    J. E. Bercaw (J. Am. Chem. Soc. 96 [1974] 5087/95).Google Scholar
  1177. [93]
    A. Davison, S. S. Wreford (J. Am. Chem. Soc. 96 [1974] 3017/8).Google Scholar
  1178. [94]
    Exxon Research and Engineering Co., M. B. Dines (Ger. Offen. 2551409 [1974/76]).Google Scholar
  1179. [95]
    J. A. Gladysz (Diss. Stanford Univ. 1974; Diss. Abstr. Intern. B 35 [1974] 2654).Google Scholar
  1180. [96]
    G. A. Razuvaev, V. N. Latyaeva, A. N. Lineva, S. V. Zelenev (Dokl. Akad. Nauk SSSR 216 [1974] 573/4Google Scholar
  1181. [96]
    G. A. Razuvaev, V. N. Latyaeva, A. N. Lineva, S. V. Zelenev Dokl. Chem. Proc. Acad. Sci. USSR 214/219 [1974] 355/6).Google Scholar
  1182. [97]
    E. E. van Tamelen (24th Intern. Congr. Pure Appi. Chem., Hamburg 1973 [1974], Voi. 2, Abstr., pp. 167/90).Google Scholar
  1183. [98]
    P. C. Wailes, H. Weigold, A. P. Bell (unpublished results from P. C. Wailes, R. S. P. Coutts, H. Weigold, Organometallic Chemistry of Titanium, Zirconium, and Hafnium, New York-London 1974, pp. 230/1).Google Scholar
  1184. [99]
    G. A. Razuvaev, V. N. Latyaeva, L. I. Vishinskaya, A. N. Linyova (7th Intern. Conf. Organometal. Chem., Venice 1975, Abstr., p. 49).Google Scholar
  1185. [100]
    D. G. Sekutowski, G. D. Stucky (Inorg. Chem. 14 [1975] 2192/9).Google Scholar
  1186. [101]
    V. B. Shur, E. G. Berkovich, E. I. Mysov, M. E. Vol’pin (Izv. Akad. Nauk SSSR Ser. Khim. 1975 1908; Bull. Acad. Sci. USSR Div. Chem. Sci. 1975 1794).Google Scholar
  1187. [102]
    Loctite Corp., S. Wojciak (Ger. Offen. 2629889 [1975/77]).Google Scholar
  1188. [103]
    L. J. Guggenberger, F. N. Tebbe (J. Am. Chem. Soc. 98 [1976] 4137/43).Google Scholar
  1189. [104]
    F. Jellinek (Proc. 17th Intern. Conf. Coord. Chem., Hamburg 1976, p. 4).Google Scholar
  1190. [105]
    V. N. Latyaeva, L. I. Vyshinskaya, V. P. Mar’in (Zh. Obshch. Khim. 46 [1976] 628/32Google Scholar
  1191. [105]
    V. N. Latyaeva, L. I. Vyshinskaya J. Gen. Chem. [USSR] 46 [1976] 627/30).Google Scholar
  1192. [106]
    G. P. Pez (J. Am. Chem. Soc. 98 [1976] 8072/8).Google Scholar
  1193. [107]
    G. P. Pez, S. C. Kwan (J. Am. Chem. Soc. 98 [1976] 8079/83).Google Scholar
  1194. [108]
    F. A. Shmidt, N. M. Ryntina, V. V. Saraev, V. A. Gruznykh, V. A. Makarov (React. Kinet. Catal. Letters 5 [1976] 101/6).Google Scholar
  1195. [109]
    G. P. Pez, J. N. Armor (Advan. Organometal. Chem. 19 [1981] 1/50, 6).Google Scholar
  1196. [110]
    K. Isagawa, K. Tatsumi, H. Kosugi, Y. Otsuji (Chem. Letters 1977 1017/20).Google Scholar
  1197. [111]
    G. P. Pez, S. C. Kwan (Ann. N. Y. Acad. Sci. 295 [1977] 174/85).Google Scholar
  1198. [112]
    G. P. Pez (J. Chem. Soc. Chem. Commun. 1977 560/1).Google Scholar
  1199. [113]
    H. Antropiusova, V. Hanus, K. Mach (Transition Metal Chem. [Weinheim] 3 [1978] 121 12).Google Scholar
  1200. [114]
    J. C. W. Chien, J. T. T. Hsieh (J. Polym. Sci. Polym. Chem. Ed. 14 [1976] 1915/32).Google Scholar
  1201. [115]
    J. A. Labinger, K. H. Komadina (J. Organometal. Chem. 155 [1978] C25/C28).Google Scholar
  1202. [116]
    M. Peng, C. H. Brubaker (Inorg. Chim. Acta 26 [1978] 231/5).Google Scholar
  1203. [117]
    G. A. Razuvaev, L.I. Vyshinskaya, G. A. Vasil’eva, V. N. Latyaeva, S. Ya.Timoshenko, N. L. Ermolaev (Izv. Akad. Nauk SSSR Ser. Khim. 1978 2584/8; Bull. Acad. Sci. USSR Div. Chem. Sci. 1978 2310/4).Google Scholar
  1204. [118]
    H. Antropiusova, K. Mach, V. Hanus, F. Turecek, P. Sedmera (React. Kinet. Catal. Letters 10 [1979] 297/300).Google Scholar
  1205. [119]
    G. A. Razuvaev, V. N. Latyaeva, L. I. Vishinskaya, T. P. Samarina (J. Organometal. Chem. 164 [1979] 41/6).Google Scholar
  1206. [120]
    G. A. Razuvaev, V. P. Mar’in, Yu. A. Andrianov (J. Organometal. Chem. 174 [1979] 67/75).Google Scholar
  1207. [121]
    F. Turecek, V. Hanus, P. Sedmera, H. Antropiusova, K. Mach (Tetrahedron 35 [1979] 1463/7).Google Scholar
  1208. [122]
    E. G. Berkovich, V. B. Shur, M. E. Vol’pin, B. Lorenz, S. Rummel, M. Wahren (Chem. Ber. 113 [1980] 70/8).Google Scholar
  1209. [123]
    E. E. van Tamelen, B. D. Webber (Proc. Natl. Acad. Sci. USA 78 [1981] 1321/2).Google Scholar
  1210. [124]
    N. El Murr, A. Chaloyard, J. Tirouflet (J. Chem. Soc. Chem. Commun. 1980 446/8).Google Scholar
  1211. [125]
    K. Mach, H. Antropiusova, V. Hanus, A. Dosedlova (Transition Metal Chem. [Weinheim] 5 [1980] 5/10).Google Scholar
  1212. [126]
    F. Mathey, R. Maillet (Tetrahedron Letters 21 [1980] 2525/6).Google Scholar
  1213. [127]
    J. H. Teuben, H. J. de Liefde Meijer (Rec. J. Royal Neth. Chem. Soc. 99 [1980] 1/5).Google Scholar
  1214. [128]
    F. Turecek, H. Antropiusova, K. Mach, V. Hanus, P. Sedmera (Tetrahedron Letters 21 Google Scholar
  1215. [1980]
  1216. [129]
    H. Antropiusova, A. Dosedlova, V. Hanus, K. Mach (Transition Metal Chem. 6 [1981] 90/3).Google Scholar
  1217. [130]
    F. Bottomley, I. J. B. Lin (J. Chem. Soc. Dalton Trans. 1981 271/5).Google Scholar
  1218. [131]
    T. R. Nelsen, J. J. Tufariello (J. Org. Chem. 40 [1975] 3159/60).Google Scholar
  1219. [132]
    Y.-Q. Liang, J.-Z. Liu, G.-F. Liu, X.-Z. Cao, C.-T. Sun (Chi-lin Ta Hsueh Tzu Jan K’o Hsueh Hsueh Pao 1981 No. 2, pp. 105/10 from C.A. 95 [1981] No. 149569).Google Scholar
  1220. [133]
    B. D. Webber (Diss. Stanford Univ. 1981; Diss. Abstr. Intern. B 41 [1981] 4131).Google Scholar
  1221. [134]
    E. G. Perevalova, I. F. Urazowski, D. A. Lemenovskii, Yu. L. Slovokhotov, Yu. T. Struch-kov (J. Organometal. Chem. 289 [1985] 319/29).Google Scholar
  1222. [135]
    K. Mach, F. Turecek, H. Antropiusova, L. Petrusova, V. Hanus (Synthesis 1982 53/5).Google Scholar
  1223. [136]
    K. Mach, F. Turecek, V. Hanus, L. Petrusova, H. Antropiusova, A. Dosedlova, P. Sedmera (Chem. Zvesti 36 [1982] 191/200).Google Scholar
  1224. [137]
    K. Mach, P. Sedmera, L. Petrusova, H. Antropiusova, V. Hanus, F. Turecek (Tetrahedron Letters 23 [1982] 1105/8).Google Scholar
  1225. [138]
    G. P. Pez, P. Apgar, R. K. Crissey (J. Am. Chem. Soc. 104 [1982] 482/90).Google Scholar
  1226. [139]
    K. Mach, L. Petrusova, H. Antropiusova, V. Hanus, F. Turecek, P. Sedmera (Collection Czech. Chem. Commun. 48 [1983] 2924/36).Google Scholar
  1227. [140]
    P. Sobota, Z. Janas (J. Organometal. Chem. 243 [1983] 35/44).Google Scholar
  1228. [141]
    K. Mach, H. Antropiusova, V. Hanus, F. Turecek, P. Sedmera (J. Organometal. Chem. 269 [1984] 39/52).Google Scholar
  1229. [142]
    D. A. Lemenovskii, I. F. Urazowski, Yu. K. Grishin, V. A. Roznyatovsky (J. Organometal. Chem. 290 [1985] 301/5).Google Scholar
  1230. [143]
    T. Cuenca, W. A. Herrmann, T. V. Ashworth (Organometallics 5 [1986] 2514/6).Google Scholar
  1231. [1]
    G. W. Watt, L J. Baye, F. O. Drummond (J. Am. Chem. Soc. 88 [1966] 1138/40).Google Scholar
  1232. [2]
    H. A. Martin, F. Jellinek (J. Organometal. Chem. 8 [1967] 115/28).Google Scholar
  1233. [3]
    J.-J. Salzmann, P. Mosimann (Helv. Chim. Acta 50 [1967] 1831/6).Google Scholar
  1234. [4]
    H. H. Brintzinger, J. E. Bercaw (J. Am. Chem. Soc. 92 [1970] 6182/5).Google Scholar
  1235. [5]
    P. C. Wailes, H. Weigold (unpublished results from R. S. P. Coutts, P. C. Wailes, Advan. Organometal. Chem. 9 [1970] 135/93,177).Google Scholar
  1236. [6]
    P. C. Wailes, H. Weigold (J. Organometal. Chem. 24 [1970] 713/5).Google Scholar
  1237. [7]
    J. E. Bercaw, R. H. Marvich, L. G. Bell, H. H. Brintzinger (J. Am. Chem. Soc. 94 [1972] 1219/38).Google Scholar
  1238. [8]
    J. H. Teuben, H. J. de Liefde Meijer (J. Organometal. Chem. 46 [1972] 313/21).Google Scholar
  1239. [9]
    L. J. Guggenberger (6th Intern. Conf. Organometal. Chem., Amherst, Mass., 1973, Abstr., p. 74).Google Scholar
  1240. [10]
    L. J. Guggenberger, F. N. Tebbe (J. Am. Chem. Soc. 95 [1973] 7870/2).Google Scholar
  1241. [11]
    J. H. Teuben (J. Organometal. Chem. 69 [1974] 241/8).Google Scholar
  1242. [12]
    P. C. Wailes, H. Weigold, A. P. Bell (unpublished results from P. C. Wailes, R. S. P. Coutts, H. Weigold, Organometallic Chemistry of Titanium, Zirconium, and Hafnium, New York -London 1974, pp. 231, 237).Google Scholar
  1243. [13]
    G. J. Olthof, H. R. van der Wal (Acta Cryst. A 31 [1975] Suppl., p. S 135).Google Scholar
  1244. [14]
    L J. Guggenberger, F. N. Tebbe (J. Am. Chem. Soc. 98 [1976] 4137/43).Google Scholar
  1245. [15]
    G. J. Olthof (J. Organometal. Chem. 128 [1977] 367/73).Google Scholar
  1246. [16]
    F. W. van der Weij, H. Schottens, J. H. Teuben (J. Organometal. Chem. 127 [1977] 299/304).Google Scholar
  1247. [17]
    H. Antropiusova, V. Hanus, K. Mach (Transition Metal Chem. [Weinheim] 3 [1978] 121/2).Google Scholar
  1248. [18]
    H. Antropiusova, K. Mach, V. Hanus, F. Turecek, P. Sedmera (React. Kinet. Catal. Letters 10 [1979] 297/300).Google Scholar
  1249. [19]
    G. A. Razuvaev, V. N. Latyaeva, L. I. Vishinskaya, T. P. Samarina (J. Organometal. Chem. 164 [1979] 41/6).Google Scholar
  1250. [20]
    F. Turecek, V. Hanus, P. Sedmera, H. Antropiusova, K. Mach (Tetrahedron 35 [1979] 1463/7).Google Scholar
  1251. [21]
    K. Mach, H. Antropiusova, V. Hanus, A. Dosedlova (Transition Metal Chem. [Weinheim] 5 [1980] 5/10).Google Scholar
  1252. [22]
    H. Antropiusova, A. Dosedlova, V. Hanus, K. Mach (Transition Metal Chem. [Weinheim] 6 [1981] 90/3).Google Scholar
  1253. [23]
    J. C. Green, R. Rankin, E. A. Seddon, J. H. Teuben, A. H. Jonkman-Beuker, D. K. G. de Boer (Chem. Phys. Letters 82 [1981] 92/5).Google Scholar
  1254. [24]
    E. Klei, J. H. Teigen, J. H. Teuben (J. Organometal. Chem. 209 [1981] 297/307).Google Scholar
  1255. [25]
    K. Mach, L. Petrusova, H. Antropiusova, V. Hanus, F. Turecek, P. Sedmera (Collection Czech. Chem. Commun. 48 [1983] 2924/36).Google Scholar
  1256. [26]
    P. Sobota, Z. Janas (J. Organometal. Chem. 243 [1983] 35/44).Google Scholar
  1257. [27]
    K. Mach, H. Antropiusova, V. Hanus, F. Turecek, P. Sedmera (J. Organometal. Chem. 269 [1984] 39/52).Google Scholar
  1258. [28]
    E. G. Perevalova, I. F. Urazowski, D. A. Lemenovskii, Yu. L. Slovokhotov, Yu. T. Struchkov (J. Organometal. Chem. 289 [1985] 319/29).Google Scholar
  1259. [29]
    T. Cuenca, W. A. Herrmann, T. V. Ashworth (Organometallics 5 [1986] 2514/6).Google Scholar
  1260. [30]
    J. E. Bercaw, H. H. Brintzinger (J. Am. Chem. Soc. 91 [1969] 7301/6).Google Scholar
  1261. [31]
    A. Merijanian, T. Mayer, J. F. Helling, F. Klemick (J. Org. Chem. 37 [1972] 3945/7).Google Scholar
  1262. [32]
    C. P. Boekel, J. H. Teuben, H. J. de Liefde Meijer (J. Organometal. Chem. 81 [1974] 371/7).Google Scholar
  1263. [33]
    W. C. Spink, M. D. Rausch (J. Organometal. Chem. 308 [1986] C1/C4).Google Scholar
  1264. [34]
    E. Klei, J. H. Teuben (J. Organometal. Chem. 188 [1980] 97/107).Google Scholar
  1265. [35]
    A. Malatesta (J. Polymer Sci. 51 [1961] S45/S49).Google Scholar
  1266. [36]
    Studiengesellschaft Kohle mbH, H. Bönnemann, B. Bogdanovic (Ger. Offen. 3205550 [1982/83]).Google Scholar
  1267. [1]
    R. Jungst, D. Sekutowski, G. Stucky (J. Am. Chem. Soc. 96 [1974] 8108/9).Google Scholar
  1268. [2]
    D. G. Sekutowski, G. D. Stucky (Inorg. Chem. 14 [1975] 2192/9).Google Scholar
  1269. [3]
    A. Dormond, Ou-Khan, J. Tirouflet (J. Organometal. Chem. 110 [1976] 321/6).Google Scholar
  1270. [4]
    E. Vitz, C. H. Brubaker (J. Organometal. Chem. 104 [1976] C33/C35).Google Scholar
  1271. [5]
    A. Dormond, T. Kolavudh (J. Organometal. Chem. 125 [1977] 63/9).Google Scholar
  1272. [6]
    D. G. Sekutowski, R. Jungst, C. D. Stucky (Inorg. Chem. 17 [1978] 1848/55).Google Scholar
  1273. [7]
    A. Dormond, T. Kolavudh, J. Tirouflet (J. Organometal. Chem. 165 [1979] 319/27).Google Scholar
  1274. [8]
    A. I. Sizov, B. M. Bulychev (Zh. Neorgan. Khim. 26 [1981] 2652/6Google Scholar
  1275. [8]
    A. I. Sizov, B. M. Bulychev Russ J. Inorg. Chem. 26 [1981] 1421/4).Google Scholar
  1276. [9]
    J. A. Smith, H. H. Brintzinger (J. Organometal. Chem. 218 [1981] 159/67).Google Scholar
  1277. [10]
    H. Schwemlein, W. Tritschler, H. Kiesele, H. H. Brintzinger (J. Organometal. Chem. 293 [1985] 353/64).Google Scholar
  1278. [11]
    A. I. Sizov, G. L. Soloveichik, B. M. Bulychev (Koord. Khim. 11 [1985] 339/45Google Scholar
  1279. [11]
    A. I. Sizov, G. L. Soloveichik, B. M. Bulychev Soviet J. Coord. Chem. 11 [1985] 183/9).Google Scholar
  1280. [12]
    A. I. Sizov, M. K. Alekseev, G. L. Soloveichik, B. M. Bulychev (Koord. Khim. 9 [1983] 492/6).Google Scholar
  1281. [13]
    J. C. Leblanc, C. Moise, A. Maisonnat, R. Poilblanc, C. Charrier, F. Mathey (J. Organometal. Chem. 231 [1982] C43/C48).Google Scholar
  1282. [14]
    J. F. W. Keana, M. D. Ogan, YiXin Lü, M. Beer, J. Varkey (J. Am. Chem. Soc. 108 [1986] 7957/63).Google Scholar

Copyright information

© Springer-Verlag Berlin Heidelberg 1989

Authors and Affiliations

  • Ulf Thewalt
    • 1
  • Reinhard Hemmer
    • 1
  1. 1.Universität UlmGermany

Personalised recommendations