A possible 2,1 → 3,1 isomerization mechanism in zirconocene-catalyzed propene polymerization: An application of the density functional theory and combined ONIOM approach

Julien Pilmé; Vincenzo Busico; Maurizio Cossi; Giovanni Talarico

doi:10.1016/j.jorganchem.2007.06.048

A possible 2,1 → 3,1 isomerization mechanism in zirconocene-catalyzed propene polymerization: An application of the density functional theory and combined ONIOM approach

Julien Pilmé
, Vincenzo Busico
, Maurizio Cossi
, Giovanni Talarico

Department of Science and Technological Innovation

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

Abstract

The unimolecular isomerization mechanism from a secondary 2,1 → 3,1 propene unit promoted by the prototype zirconocene system H₂SiCp₂Zr⁺(P) (P = polymeryl chain) has been investigated by using density functional theory calculations (B3LYP) for both gas and solvent phases. The typical route occurring through β-hydrogen elimination to the metal, olefin rotation around the metal center and olefin reinsertion into the metal hydrogen bond has been calculated by using QM/MM calculations with the ONIOM model in the presence of the counterion CH₃ B(C₆ F₅)₃^- and compared to the alternative intramolecular reversible formation of a zirconocene allyl dihydrogen complex. Our calculations show that the alternative route remains energetically less accessible, at least for the prototype metallocene system used here.

Original language	English
Pages (from-to)	4227-4236
Number of pages	10
Journal	Journal of Organometallic Chemistry
Volume	692
Issue number	20
DOIs	https://doi.org/10.1016/j.jorganchem.2007.06.048
Publication status	Published - 15 Sept 2007

Keywords

Allylic activation
Counterion
Density functional theory
Isomerization mechanism
ONIOM
QM/MM
Zirconocene-catalyzed propene polymerization

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10.1016/j.jorganchem.2007.06.048

Cite this

@article{e0d6b5f86a1d4cb3be39cedbf89ca7b3,

title = "A possible 2,1 → 3,1 isomerization mechanism in zirconocene-catalyzed propene polymerization: An application of the density functional theory and combined ONIOM approach",

abstract = "The unimolecular isomerization mechanism from a secondary 2,1 → 3,1 propene unit promoted by the prototype zirconocene system H2SiCp2Zr+(P) (P = polymeryl chain) has been investigated by using density functional theory calculations (B3LYP) for both gas and solvent phases. The typical route occurring through β-hydrogen elimination to the metal, olefin rotation around the metal center and olefin reinsertion into the metal hydrogen bond has been calculated by using QM/MM calculations with the ONIOM model in the presence of the counterion CH3 B(C6 F5)3- and compared to the alternative intramolecular reversible formation of a zirconocene allyl dihydrogen complex. Our calculations show that the alternative route remains energetically less accessible, at least for the prototype metallocene system used here.",

keywords = "Allylic activation, Counterion, Density functional theory, Isomerization mechanism, ONIOM, QM/MM, Zirconocene-catalyzed propene polymerization",

author = "Julien Pilm{\'e} and Vincenzo Busico and Maurizio Cossi and Giovanni Talarico",

note = "Funding Information: This research was co-funded by the Italian Ministry for University (PRIN 2006). The calculations were carried out at the Centro di Metodologie Chimico-Fisiche (CIMCF), University of Naples “Federico II”. Appendix A ",

year = "2007",

month = sep,

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doi = "10.1016/j.jorganchem.2007.06.048",

language = "English",

volume = "692",

pages = "4227--4236",

journal = "Journal of Organometallic Chemistry",

issn = "0022-328X",

publisher = "Elsevier B.V.",

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A possible 2,1 → 3,1 isomerization mechanism in zirconocene-catalyzed propene polymerization: An application of the density functional theory and combined ONIOM approach. / Pilmé, Julien; Busico, Vincenzo; Cossi, Maurizio et al.
In: Journal of Organometallic Chemistry, Vol. 692, No. 20, 15.09.2007, p. 4227-4236.

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

TY - JOUR

T1 - A possible 2,1 → 3,1 isomerization mechanism in zirconocene-catalyzed propene polymerization

T2 - An application of the density functional theory and combined ONIOM approach

AU - Pilmé, Julien

AU - Busico, Vincenzo

AU - Cossi, Maurizio

AU - Talarico, Giovanni

N1 - Funding Information: This research was co-funded by the Italian Ministry for University (PRIN 2006). The calculations were carried out at the Centro di Metodologie Chimico-Fisiche (CIMCF), University of Naples “Federico II”. Appendix A

PY - 2007/9/15

Y1 - 2007/9/15

N2 - The unimolecular isomerization mechanism from a secondary 2,1 → 3,1 propene unit promoted by the prototype zirconocene system H2SiCp2Zr+(P) (P = polymeryl chain) has been investigated by using density functional theory calculations (B3LYP) for both gas and solvent phases. The typical route occurring through β-hydrogen elimination to the metal, olefin rotation around the metal center and olefin reinsertion into the metal hydrogen bond has been calculated by using QM/MM calculations with the ONIOM model in the presence of the counterion CH3 B(C6 F5)3- and compared to the alternative intramolecular reversible formation of a zirconocene allyl dihydrogen complex. Our calculations show that the alternative route remains energetically less accessible, at least for the prototype metallocene system used here.

AB - The unimolecular isomerization mechanism from a secondary 2,1 → 3,1 propene unit promoted by the prototype zirconocene system H2SiCp2Zr+(P) (P = polymeryl chain) has been investigated by using density functional theory calculations (B3LYP) for both gas and solvent phases. The typical route occurring through β-hydrogen elimination to the metal, olefin rotation around the metal center and olefin reinsertion into the metal hydrogen bond has been calculated by using QM/MM calculations with the ONIOM model in the presence of the counterion CH3 B(C6 F5)3- and compared to the alternative intramolecular reversible formation of a zirconocene allyl dihydrogen complex. Our calculations show that the alternative route remains energetically less accessible, at least for the prototype metallocene system used here.

KW - Allylic activation

KW - Counterion

KW - Density functional theory

KW - Isomerization mechanism

KW - ONIOM

KW - QM/MM

KW - Zirconocene-catalyzed propene polymerization

UR - https://www.scopus.com/pages/publications/34548014483

U2 - 10.1016/j.jorganchem.2007.06.048

DO - 10.1016/j.jorganchem.2007.06.048

M3 - Article

SN - 0022-328X

VL - 692

SP - 4227

EP - 4236

JO - Journal of Organometallic Chemistry

JF - Journal of Organometallic Chemistry

IS - 20

ER -

A possible 2,1 → 3,1 isomerization mechanism in zirconocene-catalyzed propene polymerization: An application of the density functional theory and combined ONIOM approach

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Keywords

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