Iminopyridine Ni(II) Catalysts Affording Oily Hyperbranched Ethylene Oligomers and/or Crystalline Polyethylenes Depending on the Reaction Conditions: Possible Role of In Situ Catalyst Structure Modifications

Iminopyridine Ni(II) Catalysts Affording Oily Hyperbranched Ethylene Oligomers and/or Crystalline Polyethylenes Depending on the Reaction Conditions: Possible Role of In Situ Catalyst Structure Modifications

Nickel-based ethylene polymerization catalysts have unique features, being able to produce macromolecules with a variable content of branches, resulting in polymers ranging from semicrystalline plastics to elastomers to hyperbranched amorphous waxes and oils. In addition to Brookhart’s α-diimine cat...

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Main Authors: Ilaria D’Auria, Zeinab Saki, Claudio Pellecchia
Format: Article
Language:English
Published: MDPI AG 2021-05-01
Series:Macromol
Subjects:
olefin polymerization
nickel
catalysts
Online Access:https://www.mdpi.com/2673-6209/1/2/10
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spelling doaj-c3a6d419926843fa92907c791eb67a482021-08-26T13:59:42ZengMDPI AGMacromol2673-62092021-05-0111012112910.3390/macromol1020010Iminopyridine Ni(II) Catalysts Affording Oily Hyperbranched Ethylene Oligomers and/or Crystalline Polyethylenes Depending on the Reaction Conditions: Possible Role of In Situ Catalyst Structure ModificationsIlaria D’Auria0Zeinab Saki1Claudio Pellecchia2Dipartimento di Chimica e Biologia “A. Zambelli”, Università di Salerno, 84084 Fisciano, ItalyDipartimento di Chimica e Biologia “A. Zambelli”, Università di Salerno, 84084 Fisciano, ItalyDipartimento di Chimica e Biologia “A. Zambelli”, Università di Salerno, 84084 Fisciano, ItalyNickel-based ethylene polymerization catalysts have unique features, being able to produce macromolecules with a variable content of branches, resulting in polymers ranging from semicrystalline plastics to elastomers to hyperbranched amorphous waxes and oils. In addition to Brookhart’s α-diimine catalysts, iminopyridine Ni(II) complexes are among the most investigated systems. We report that Ni(II) complexes bearing aryliminopyridine ligands with bulky substituents both at the imino moiety and in the 6-position of pyridine afford either hyperbranched low molecular weight polyethylene oils or prevailingly linear crystalline polyethylenes or both, depending on the ligand structure and the reaction conditions. The formation of multiple active species in situ is suggested by analysis of the post-polymerization catalyst residues, showing the partial reduction of the imino function. Some related arylaminopyridine Ni(II) complexes were also synthesized and tested, showing a peculiar behavior, i.e., the number of branches of the produced polyethylenes increases while ethylene pressure increases.https://www.mdpi.com/2673-6209/1/2/10olefin polymerizationnickelcatalysts
collection DOAJ
language English
format Article
sources DOAJ
author Ilaria D’Auria
Zeinab Saki
Claudio Pellecchia
spellingShingle Ilaria D’Auria
Zeinab Saki
Claudio Pellecchia
Iminopyridine Ni(II) Catalysts Affording Oily Hyperbranched Ethylene Oligomers and/or Crystalline Polyethylenes Depending on the Reaction Conditions: Possible Role of In Situ Catalyst Structure Modifications
Macromol
olefin polymerization
nickel
catalysts
author_facet Ilaria D’Auria
Zeinab Saki
Claudio Pellecchia
author_sort Ilaria D’Auria
title Iminopyridine Ni(II) Catalysts Affording Oily Hyperbranched Ethylene Oligomers and/or Crystalline Polyethylenes Depending on the Reaction Conditions: Possible Role of In Situ Catalyst Structure Modifications
title_short Iminopyridine Ni(II) Catalysts Affording Oily Hyperbranched Ethylene Oligomers and/or Crystalline Polyethylenes Depending on the Reaction Conditions: Possible Role of In Situ Catalyst Structure Modifications
title_full Iminopyridine Ni(II) Catalysts Affording Oily Hyperbranched Ethylene Oligomers and/or Crystalline Polyethylenes Depending on the Reaction Conditions: Possible Role of In Situ Catalyst Structure Modifications
title_fullStr Iminopyridine Ni(II) Catalysts Affording Oily Hyperbranched Ethylene Oligomers and/or Crystalline Polyethylenes Depending on the Reaction Conditions: Possible Role of In Situ Catalyst Structure Modifications
title_full_unstemmed Iminopyridine Ni(II) Catalysts Affording Oily Hyperbranched Ethylene Oligomers and/or Crystalline Polyethylenes Depending on the Reaction Conditions: Possible Role of In Situ Catalyst Structure Modifications
title_sort iminopyridine ni(ii) catalysts affording oily hyperbranched ethylene oligomers and/or crystalline polyethylenes depending on the reaction conditions: possible role of in situ catalyst structure modifications
publisher MDPI AG
series Macromol
issn 2673-6209
publishDate 2021-05-01
description Nickel-based ethylene polymerization catalysts have unique features, being able to produce macromolecules with a variable content of branches, resulting in polymers ranging from semicrystalline plastics to elastomers to hyperbranched amorphous waxes and oils. In addition to Brookhart’s α-diimine catalysts, iminopyridine Ni(II) complexes are among the most investigated systems. We report that Ni(II) complexes bearing aryliminopyridine ligands with bulky substituents both at the imino moiety and in the 6-position of pyridine afford either hyperbranched low molecular weight polyethylene oils or prevailingly linear crystalline polyethylenes or both, depending on the ligand structure and the reaction conditions. The formation of multiple active species in situ is suggested by analysis of the post-polymerization catalyst residues, showing the partial reduction of the imino function. Some related arylaminopyridine Ni(II) complexes were also synthesized and tested, showing a peculiar behavior, i.e., the number of branches of the produced polyethylenes increases while ethylene pressure increases.
topic olefin polymerization
nickel
catalysts
url https://www.mdpi.com/2673-6209/1/2/10
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AT zeinabsaki iminopyridineniiicatalystsaffordingoilyhyperbranchedethyleneoligomersandorcrystallinepolyethylenesdependingonthereactionconditionspossibleroleofinsitucatalyststructuremodifications
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