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Title: Vanadyl calix[6]arene complexes: synthesis, structural studies and ethylene homo-(co-)polymerization capability
Authors: Redshaw, Carl
Walton, Mark J.
Michiue, Kenji
Chao, Yimin
Walton, Alex
Elo, Pertti
Sumerin, Victor
Jiang, Chengying
Elsegood, Mark R.J.
Issue Date: 2015
Publisher: © The Royal Society of Chemistry
Citation: REDSHAW, C. ...et al., 2015. Vanadyl calix[6]arene complexes: synthesis, structural studies and ethylene homo-(co-)polymerization capability. Dalton Transactions, 44(27), pp.12292-12303.
Abstract: Treatment of p-tert-butylcalix[6]areneH6 (L6H6) with in situ [LiVO(Ot-Bu)4] afforded, after work-up, the dark green complex [Li(MeCN)4][V2(O)2Li(MeCN)(L6H2)2]·8MeCN (1·8MeCN). On one occasion, the reaction led to the formation of a mixture of products, the bulk of which differing from 1 only in the amount of solvate, viz. 2·9.67MeCN. The second minor yellow product has the formula {[(VO2)2(L6H2)-(Li(MeCN)2)2]·2MeCN}n (3·2MeCN), and comprises a 1D polymeric structure with links through the L6H2 ligand and Li2O2 units. When the reverse order of addition was employed such that lithium tert-butoxide (7.5 equivalents) was added to L6H6, and subsequently treated with VOCl3 (2 equiv.), the complex {[VO(THF)][VO(μ-O)]2Li(THF)(Et2O)][L6]}·2Et2O·0.5THF (4·2Et2O·0.5THF), which contains a trinuclear motif possessing a central octahedral vanadyl centre linked via oxo bridges to two tetrahedral (C3v) vanadyl centres, was isolated. The calix[6]arene in 4 is severely twisted and adopts a ‘down, down, down, down, out, out’ conformation. Use of excess lithium tert-butoxide led to a complex very similar to 4, differing only in the solvent of crystallization, namely 5·Et2O·2THF. The ability of 1 and 5 to act as pre-catalysts for ethylene polymerization in the presence of a variety of co-catalysts and under various conditions has been investigated. Co-polymerization of ethylene with propylene and with 1-hexene have also been conducted; results are compared versus VO(OEt)Cl2.
Description: This paper is in closed access.
Version: Accepted for publication
DOI: 10.1039/c5dt00376h
URI: https://dspace.lboro.ac.uk/2134/18644
Publisher Link: http://dx.doi.org/10.1039/c5dt00376h
ISSN: 1477-9226
Appears in Collections:Closed Access (Chemistry)

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