Janne Maaranen scite author profile

The influence of the ligand structures of hafnocene polymerization catalysts on ethene insertion and chain propagation was systematically studied by quantum chemical methods. Altogether 54 hafnocenes were studied as a function of the ligand structures. Two consecutive ethene insertions and chain propagations were performed for the catalysts, giving rise to 15 intermediate structures along the reaction pathway. The behavior of the catalysts was analyzed as a function of ancillary ligands, ligand substituents, and bridging units. The differences along the reaction pathway are dominated by the changes in relative stabilities of the catalytic intermediate products. Large aromatic ancillary ligands and electron-donating ligand substituents strongly stabilize the catalyst cations. Steric effects introduced by the ligand framework mostly affect the feasibility of ethene π-coordination and the activation energy for chain propagation. The dominant effect of the relative stabilities of the catalyst intermediates sheds light on the catalytic performance of metallocenes, which may turn out to be useful in further catalyst development.

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Geometry prediction of hafnocenes by quantum chemical methods

Karttunen

Linnolahti

Pakkanen

et al. 2007

Theor Chem Account

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Influence of the ligand structure of hafnocene polymerization catalysts: A theoretical study on chain termination reactions in ethene polymerization

Karttunen

Linnolahti

Pakkanen

et al. 2008

Journal of Organometallic Chemistry

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Dimethyl-, diphenyl- and cyclotetramethylene silylchloride derivatives of guanidine, their synthesis and structure. Formation of pentacoordinated silicon compounds and an unexpected diionic disila-diguanidinium dichloride

Maaranen

Andell

Vanne

et al. 2006

Journal of Organometallic Chemistry

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Janne Maaranen

The influence of the ligand structure on activation of hafnocene polymerization catalysts: A theoretical study

Influence of the Ligand Structure of Hafnocene Polymerization Catalysts: A Theoretical Study on Ethene Insertion and Chain Propagation

Geometry prediction of hafnocenes by quantum chemical methods

Influence of the ligand structure of hafnocene polymerization catalysts: A theoretical study on chain termination reactions in ethene polymerization

Dimethyl-, diphenyl- and cyclotetramethylene silylchloride derivatives of guanidine, their synthesis and structure. Formation of pentacoordinated silicon compounds and an unexpected diionic disila-diguanidinium dichloride

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