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Use of PCCP Ligands with a <i>P</i>-Ph(alkyl) Group in Chromium-Catalyzed Ethylene Tri-/Tetramerization

Jihe Wang, Dongchang Liu, Jing Zuo, Xing Zhao, Jun Zhang

2024Organometallics8 citationsDOI

Abstract

Cr(III) complexes supported by the ligands of the type Ph 2 PC(R)═CHPPh(alkyl) were prepared and tested in ethylene tri-/tetramerization. All the complexes exhibited predominant tetramerization selectivity. It is found that not only the steric properties of both the backbone substituent and the P -substituent but also the electronic properties of the backbone substituent affect the catalytic performance. Precatalyst 6 bearing an isopropyl group on the ligand backbone achieved the highest combined 1-C 6 /1-C 8 selectivity (84.8 wt %) with a high 1-octene selectivity (56.1 wt %), maintaining a high activity of 3662 kg/g Cr·h. Precatalyst 2 bearing a 3-pentyl group on the ligand backbone exhibited excellent high-temperature stability at 100 °C, achieving a high activity of up to 2213 kg/g Cr·h and a high combined 1-C 6 /1-C 8 selectivity (87.9 wt %) with a low PE formation (0.08 wt %). Catalysis using the ligands with a primary P -alkyl substituent led to a low combined 1-C 6 /1-C 8 selectivity (69.4–75.2 wt %). Introduction of β-branching at the primary P -alkyl substituent to give precatalyst 14 with a P -benzyl group could improve the overall catalytic performance, giving a markedly increased activity with an improved combined 1-C 6 /1-C 8 selectivity of 83.3 wt %. Moreover, the incorporation of an electron-withdrawing phenyl group to the ligand backbone was found to deteriorate the catalytic performance of Cr in the tri-/tetramerization.

Topics & Concepts

ChemistrySubstituentSelectivityAlkylIsopropylLigand (biochemistry)Steric effectsCatalysisEthyleneMedicinal chemistryChromiumStereochemistryPhenyl groupOrganic chemistryReceptorBiochemistryHalogenOrganometallic Complex Synthesis and CatalysisAsymmetric Hydrogenation and CatalysisCatalytic Cross-Coupling Reactions