Ethylene polymerization under mild conditions using simple aluminum alkyls and chloro activators

Michael P. Shaver; Laura E. N. Allan; Vernon C. Gibson

doi:10.1021/om060893p

Ethylene polymerization under mild conditions using simple aluminum alkyls and chloro activators

Michael P. Shaver, Laura E. N. Allan, Vernon C. Gibson

Research output: Contribution to journal › Article › peer-review

Abstract

Methylaluminum sesquichloride (Al2Cl3Me3, MAS), in the presence of ethyl trichloroacetate (ETAC), is found to be an effective catalyst for the production of polyethylene. Optimal catalyst productivities are obtained for a MAS:ETAC ratio of 1:1 at a reaction temperature of 75 degrees C. The polymerization is first order in both ethylene and MAS/ETAC concentration. NMR studies indicate that a 1:1 adduct is formed between binuclear MAS and ETAC, which is postulated to be a direct precursor to the active species. The productivity at elevated temperatures is limited by a radical decomposition process. Screening of various additives revealed that many halogenated organic reagents can act as activators, including carbon tetrachloride and p-toluene sulfonyl chloride. Improved productivities are obtained using sulfonyl chloride activators due to circumvention of radical decomposition pathways.

Original language	English
Pages (from-to)	2252-2257
Number of pages	6
Journal	Organometallics
Volume	26
Issue number	9
DOIs	https://doi.org/10.1021/om060893p
Publication status	Published - 23 Apr 2007

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title = "Ethylene polymerization under mild conditions using simple aluminum alkyls and chloro activators",

abstract = "Methylaluminum sesquichloride (Al2Cl3Me3, MAS), in the presence of ethyl trichloroacetate (ETAC), is found to be an effective catalyst for the production of polyethylene. Optimal catalyst productivities are obtained for a MAS:ETAC ratio of 1:1 at a reaction temperature of 75 degrees C. The polymerization is first order in both ethylene and MAS/ETAC concentration. NMR studies indicate that a 1:1 adduct is formed between binuclear MAS and ETAC, which is postulated to be a direct precursor to the active species. The productivity at elevated temperatures is limited by a radical decomposition process. Screening of various additives revealed that many halogenated organic reagents can act as activators, including carbon tetrachloride and p-toluene sulfonyl chloride. Improved productivities are obtained using sulfonyl chloride activators due to circumvention of radical decomposition pathways.",

author = "Shaver, {Michael P.} and Allan, {Laura E. N.} and Gibson, {Vernon C.}",

year = "2007",

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doi = "10.1021/om060893p",

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TY - JOUR

T1 - Ethylene polymerization under mild conditions using simple aluminum alkyls and chloro activators

AU - Shaver, Michael P.

AU - Allan, Laura E. N.

AU - Gibson, Vernon C.

PY - 2007/4/23

Y1 - 2007/4/23

N2 - Methylaluminum sesquichloride (Al2Cl3Me3, MAS), in the presence of ethyl trichloroacetate (ETAC), is found to be an effective catalyst for the production of polyethylene. Optimal catalyst productivities are obtained for a MAS:ETAC ratio of 1:1 at a reaction temperature of 75 degrees C. The polymerization is first order in both ethylene and MAS/ETAC concentration. NMR studies indicate that a 1:1 adduct is formed between binuclear MAS and ETAC, which is postulated to be a direct precursor to the active species. The productivity at elevated temperatures is limited by a radical decomposition process. Screening of various additives revealed that many halogenated organic reagents can act as activators, including carbon tetrachloride and p-toluene sulfonyl chloride. Improved productivities are obtained using sulfonyl chloride activators due to circumvention of radical decomposition pathways.

AB - Methylaluminum sesquichloride (Al2Cl3Me3, MAS), in the presence of ethyl trichloroacetate (ETAC), is found to be an effective catalyst for the production of polyethylene. Optimal catalyst productivities are obtained for a MAS:ETAC ratio of 1:1 at a reaction temperature of 75 degrees C. The polymerization is first order in both ethylene and MAS/ETAC concentration. NMR studies indicate that a 1:1 adduct is formed between binuclear MAS and ETAC, which is postulated to be a direct precursor to the active species. The productivity at elevated temperatures is limited by a radical decomposition process. Screening of various additives revealed that many halogenated organic reagents can act as activators, including carbon tetrachloride and p-toluene sulfonyl chloride. Improved productivities are obtained using sulfonyl chloride activators due to circumvention of radical decomposition pathways.

U2 - 10.1021/om060893p

DO - 10.1021/om060893p

M3 - Article

SN - 0276-7333

VL - 26

SP - 2252

EP - 2257

JO - Organometallics

JF - Organometallics

IS - 9

ER -

Ethylene polymerization under mild conditions using simple aluminum alkyls and chloro activators

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