Structure-reactivity relationship in silacycloalkyl diamide complexes of titanium(IV)

Authors
Kim, SJJung, INYoo, BRKo, JKang, SO
Issue Date
2001-11
Publisher
GORDON BREACH PUBLISHING, TAYLOR & FRANCIS GROUP
Citation
PHOSPHORUS SULFUR AND SILICON AND THE RELATED ELEMENTS, v.168, pp.135 - 140
Abstract
The structure-reactivity relationship of titanium complexes CySi(HNBu ')(2)TiCl2 (1) (CySi = silacyclobutane, silacyclopentane, silacyclopentene, and silacyclohexane) stabilized by a series of cyclic silyldiamide ligands has been studied. The crystallographic results establish that steric interactions between the silacycloalkyl and tort-butyl groups influence the C(Bu-t)-N-Ti angles and, hence, the steric environment at titanium. The compounds 1 were further investigated as potential catalysts for the polymerization of ethylene. While sterically less demanding silacyclobutyl and -pentyl diamide complexes (la and 1b) exhibit low ethylene polymerization activity (3.9 similar to5.8 kg PE mol(cat) (-1)h(-1)) in the presence of methylalumoxane. highly puckered silacyclohexyl diamide complex lc shows better activity (10 kg PE mol(cat) h(-1)) for the ethylene polymerization when it is activated with MAO.
Keywords
AMIDINATE COMPLEXES; MOLECULAR-STRUCTURE; ALPHA-OLEFINS; POLYMERIZATION; LIGAND; AMIDINATE COMPLEXES; MOLECULAR-STRUCTURE; ALPHA-OLEFINS; POLYMERIZATION; LIGAND; cyclic silyldiamide; silacycloalkane; titanium; ethylene polymerization
ISSN
1042-6507
URI
https://pubs.kist.re.kr/handle/201004/140097
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KIST Article > 2001
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