Allylsilylcyclopentadienyl Group 4 metal complexes: synthesis, structure and reactivity
Autores
Cano Sierra, Jesús; Gómez Sal, Pilar; Heinz, Georg; Martínez Martínez, Gema; Royo Gracia, PascualIdentificadores
Enlace permanente (URI): http://hdl.handle.net/10017/4196DOI: 10.1016/S0020-1693(02)01280-X
ISSN: 0020-1693
Editor
Elsevier
Fecha de publicación
2003Patrocinadores
Financial support of our work by MCyT (Project
MAT2001-1309) is gratefully acknowledged. G.H., G.M
and J.C are grateful to to the Alexander von HumboldtStiftung,
MEC and CAM for fellowships.
Cita bibliográfica
Inorganica Chimica Acta, 2003, v. 345, p. 15-26
Palabras clave
Metallocene
Titanium
Zirconium
Polymerization
Cationic species
Proyectos
MAT2001-1309 ( Ministerio de Ciencia y Tecnología)
Tipo de documento
info:eu-repo/semantics/article
Versión
info:eu-repo/semantics/publishedVersion
Versión del editor
http://dx.doi.org/10.1016/S0020-1693(02)01280-XDerechos
(c) Elsevier, 2002
Derechos de acceso
info:eu-repo/semantics/openAccess
Resumen
(Allyldimethyl)silyl-substituted cyclopentadiene C5H5SiMe2(CH2CH /CH2) (1) and indene C9H7 /1-SiMe2(CH2CH /CH2) (2)
were synthesized by reaction of SiMe2(CH2CH /CH2)Cl with NaC5H5 or LiC9H7, respectively. Metallation of 1 with n-BuLi and
TlOEt gave the corresponding lithium 3 and thallium 5 salts. The disilylcylopentadienes C5H4 /1-SiMe3 /1-SiMe2(CH2CH /CH2) (6)
and C5H4 /1,1-[SiMe2(CH2CH /CH2)]2 (7) were prepared by reaction of 3 with the corresponding chlorosilanes. Compound 7
reacted with TiCl4 to give the monocyclopentadienyl compound [Ti{h5
-C5H4SiMe2(CH2CH /CH2)}Cl3] (8), while 5 was used to
prepare the titanocenes [Ti(h5
-Cp){h5
-C5H4SiMe2(CH2CH /CH2)}Cl2] (Cp /C5H4SiMe2(CH2CH /CH2) 9, C5H5 10, C5Me5 11) by
reaction with the appropriate TiCpCl3 derivative. The related dicyclopentadienyl [Zr{h5
-C5H4SiMe2(CH2CH /CH2)}2Cl2] (12),
[Zr(h5
-C5H5){h5
-C5H4SiMe2(CH2CH /CH2)}Cl2] (13), and indenyl [Zr(h5
-C5H5){h5
-C9H6SiMe2(CH2CH /CH2)}Cl2] (14) zirconium
derivatives were isolated by reaction of ZrCl4 and Zr(h5
-C5H5)Cl3 /DME with the lithium salts 3 and 4, respectively.
Alkylation of the metallocene complexes using MeLi, MgMeCl, Mg(CH2Ph)Cl and Mg(CH2Ph)2(THF)2 afforded the monomethyl
titanium [Ti(h5
-C5H5){h5
-C5H4SiMe2(CH2CH /CH2)}ClMe] (15) and the dialkyl cyclopentadienyl [M(h5
-C5H5){h5
-C5H4SiMe2
(CH2CH /CH2)}R2] (R /Me, M /Ti 16, Zr 18; R /CH2Ph, M /Ti 20, Zr 22), [Zr{h5
-C5H4SiMe2(CH2CH /CH2)}2R2] (R /Me
17, CH2Ph 21) and indenyl derivatives [Zr(h5
-C5H5){h5
-C9H6SiMe2(CH2CH /CH2)}R2] (R /Me 19, CH2Ph 23). The molecular
structure of 11 was studied by X-ray diffraction methods. The reactions of the dialkyl derivatives with B(C6F5)3 were monitored by
NMR spectroscopy at variable temperature. The catalytic activity of the dichloro zirconium complexes in the presence of
methylalumoxane (MAO) for ethylene polymerization was determined.
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