Organoactinides in the polymerization of ethylene: is TIBA a better cocatalyst than MAO?

Organoactinides in the polymerization of ethylene: is TIBA a better cocatalyst than MAO?

The synthesis of two pyridylamidinate bis(N,N'-bis(trimethylsilyl)-2-pyridylamidinate)An(μ-Cl)2Li(TMEDA) (An = U (1), Th (2)) complexes is presented. For complex 1 the solid state X-ray structures were studied and compared to that of complex 2. The organoactinide complexes were studied as pre-c...

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Veröffentlicht in:Dalton transactions : an international journal of inorganic chemistry 2013-07, Vol.42 (25), p.9069-9078
Hauptverfasser: Domeshek, Elena, Batrice, Rami J, Aharonovich, Sinai, Tumanskii, Boris, Botoshansky, Mark, Eisen, Moris S
Format: Artikel
Sprache:eng
Schlagworte:
Actinoid Series Elements - chemistry
Aluminum
Buckminsterfullerene
Catalysis
Ethylene
Ethylenes - chemistry
Fullerenes
Lithium - chemistry
Models, Molecular
Molecular Structure
Organometallic Compounds - chemical synthesis
Organometallic Compounds - chemistry
Polymerization
Radicals
Synthesis
Uranium - chemistry
X-rays
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Zusammenfassung:The synthesis of two pyridylamidinate bis(N,N'-bis(trimethylsilyl)-2-pyridylamidinate)An(μ-Cl)2Li(TMEDA) (An = U (1), Th (2)) complexes is presented. For complex 1 the solid state X-ray structures were studied and compared to that of complex 2. The organoactinide complexes were studied as pre-catalysts in the polymerization of ethylene when activated by methylalumoxane (MAO). The catalytic activity was improved using a mixture of trityl tetrakispentafluorophenylborate (TTPB) and a small amount of methylalumoxane (MAO) as cocatalysts, and was amazingly improved, providing the greatest activity, using only triisobutyl aluminum (TIBA). We present a combination of ESR, C60 radical trapping, and MALDI-TOF studies describing the formation of the single-site active species, capturing some unique features of the complexes and shedding light on the polymerization mechanism.
ISSN:1477-9226
1477-9234
DOI:10.1039/c3dt00032j