Isolation of a cationic chromium(II) species in a catalytic system for ethylene tri- and tetramerization

A. Jabri; P. Crewdson; S. Gambarotta; I.V. Korobkov; R. Duchateau

doi:10.1021/om050886l

Isolation of a cationic chromium(II) species in a catalytic system for ethylene tri- and tetramerization

A. Jabri, P. Crewdson, S. Gambarotta, I.V. Korobkov, R. Duchateau

Chemical Engineering and Chemistry

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

103 Citations (Scopus)

Abstract

Treatment of the ethylene tetramerization catalyst precursor [PNP]CrCl3 with Me3Al afforded the new divalent catalyst precursor {[PNP]2Cr(m-Cl)AlMe3}[ClAlMe3]0.34[Me4Al]0.66·0.125(hexane)·0.25(toluene) (1). The formation of 1 implies reduction to the divalent state, cationization, and ligand scrambling. The fact that this species displays, upon activation with MAO, a catalytic activity similar to that of the trivalent precursor indicates that reduction of the metal to the divalent state is a step toward the formation of the actual catalytically active species. The failure of CrCl2(THF)2 to react with [PNP] indicates that cationization and acquisition of the second ligand and of a bridging ClAlMe3 residue are central to the stabilization of this new divalent catalyst precursor.

Original language	English
Pages (from-to)	715-718
Journal	Organometallics
Volume	25
Issue number	3
DOIs	https://doi.org/10.1021/om050886l
Publication status	Published - 2006

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title = "Isolation of a cationic chromium(II) species in a catalytic system for ethylene tri- and tetramerization",

abstract = "Treatment of the ethylene tetramerization catalyst precursor [PNP]CrCl3 with Me3Al afforded the new divalent catalyst precursor \{[PNP]2Cr(m-Cl)AlMe3\}[ClAlMe3]0.34[Me4Al]0.66·0.125(hexane)·0.25(toluene) (1). The formation of 1 implies reduction to the divalent state, cationization, and ligand scrambling. The fact that this species displays, upon activation with MAO, a catalytic activity similar to that of the trivalent precursor indicates that reduction of the metal to the divalent state is a step toward the formation of the actual catalytically active species. The failure of CrCl2(THF)2 to react with [PNP] indicates that cationization and acquisition of the second ligand and of a bridging ClAlMe3 residue are central to the stabilization of this new divalent catalyst precursor.",

author = "A. Jabri and P. Crewdson and S. Gambarotta and I.V. Korobkov and R. Duchateau",

year = "2006",

doi = "10.1021/om050886l",

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T1 - Isolation of a cationic chromium(II) species in a catalytic system for ethylene tri- and tetramerization

AU - Jabri, A.

AU - Crewdson, P.

AU - Gambarotta, S.

AU - Korobkov, I.V.

AU - Duchateau, R.

PY - 2006

Y1 - 2006

N2 - Treatment of the ethylene tetramerization catalyst precursor [PNP]CrCl3 with Me3Al afforded the new divalent catalyst precursor {[PNP]2Cr(m-Cl)AlMe3}[ClAlMe3]0.34[Me4Al]0.66·0.125(hexane)·0.25(toluene) (1). The formation of 1 implies reduction to the divalent state, cationization, and ligand scrambling. The fact that this species displays, upon activation with MAO, a catalytic activity similar to that of the trivalent precursor indicates that reduction of the metal to the divalent state is a step toward the formation of the actual catalytically active species. The failure of CrCl2(THF)2 to react with [PNP] indicates that cationization and acquisition of the second ligand and of a bridging ClAlMe3 residue are central to the stabilization of this new divalent catalyst precursor.

AB - Treatment of the ethylene tetramerization catalyst precursor [PNP]CrCl3 with Me3Al afforded the new divalent catalyst precursor {[PNP]2Cr(m-Cl)AlMe3}[ClAlMe3]0.34[Me4Al]0.66·0.125(hexane)·0.25(toluene) (1). The formation of 1 implies reduction to the divalent state, cationization, and ligand scrambling. The fact that this species displays, upon activation with MAO, a catalytic activity similar to that of the trivalent precursor indicates that reduction of the metal to the divalent state is a step toward the formation of the actual catalytically active species. The failure of CrCl2(THF)2 to react with [PNP] indicates that cationization and acquisition of the second ligand and of a bridging ClAlMe3 residue are central to the stabilization of this new divalent catalyst precursor.

U2 - 10.1021/om050886l

DO - 10.1021/om050886l

M3 - Article

SN - 0276-7333

VL - 25

SP - 715

EP - 718

JO - Organometallics

JF - Organometallics

IS - 3

ER -

Isolation of a cationic chromium(II) species in a catalytic system for ethylene tri- and tetramerization

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