Phosphine- and pyridine-functionalised N-heterocyclic carbene methyl and allyl complexes of palladium. Unexpected regiospecificity of the protonation reaction of the dimethyl complexes
Phosphine- and pyridine-functionalised N-heterocyclic carbene methyl and allyl complexes of palladium. Unexpected regiospecificity of the protonation reaction of the dimethyl complexes
Square planar neutral dimethyl and cationic allyl complexes of palladium with the electronically
nonsymmetric diphenylphosphinomethyl- and pyridyl-N-heterocyclic carbene ligands have been synthesized
and characterized. The products from the protonation of the dimethyl complexes with 1 equiv of acid at
low temperatures are monomethyl cations, the exact nature of which is dependent on the type of ligand;
in pyridine-carbene complexes the Pd-Me bond cleaved is trans to the carbene, while for the phosphinocarbene
complexes it is trans to the phosphine. Density functional calculations suggest that protonation
in these complexes occurs directly at the methyl ligands and that the site of protonation determines the
selectivity of Pd-Me cleavage. For the pyridine-carbene complexes there is a clear preference for
protonation trans to the carbene. For phosphino-carbene complexes, however, the site of protonation
depends on the steric bulk of the N-heterocyclic carbene ligand. Protonation trans to carbene is favored
with small substituents (H, Me), but the bulky 2,6-Pri2C6H3 susbstituent induces protonation trans to the
phosphine, as is seen experimentally.
253-263
Danopoulos, Andreas A.
4919c13e-ebe4-4456-b329-c806c8e22236
Tsoureas, Nikolaos
b40771a1-8870-43bc-8989-3c6eee2f325f
MacGregor, Stuart A.
1d9d0e24-58f3-4866-8b85-fb3518cd2af9
Smith, Christopher
969cad82-7677-470b-8997-c9a8c3cb0e13
2007
Danopoulos, Andreas A.
4919c13e-ebe4-4456-b329-c806c8e22236
Tsoureas, Nikolaos
b40771a1-8870-43bc-8989-3c6eee2f325f
MacGregor, Stuart A.
1d9d0e24-58f3-4866-8b85-fb3518cd2af9
Smith, Christopher
969cad82-7677-470b-8997-c9a8c3cb0e13
Danopoulos, Andreas A., Tsoureas, Nikolaos, MacGregor, Stuart A. and Smith, Christopher
(2007)
Phosphine- and pyridine-functionalised N-heterocyclic carbene methyl and allyl complexes of palladium. Unexpected regiospecificity of the protonation reaction of the dimethyl complexes.
Organometallics, 26 (2), .
(doi:10.1021/om0608408).
Abstract
Square planar neutral dimethyl and cationic allyl complexes of palladium with the electronically
nonsymmetric diphenylphosphinomethyl- and pyridyl-N-heterocyclic carbene ligands have been synthesized
and characterized. The products from the protonation of the dimethyl complexes with 1 equiv of acid at
low temperatures are monomethyl cations, the exact nature of which is dependent on the type of ligand;
in pyridine-carbene complexes the Pd-Me bond cleaved is trans to the carbene, while for the phosphinocarbene
complexes it is trans to the phosphine. Density functional calculations suggest that protonation
in these complexes occurs directly at the methyl ligands and that the site of protonation determines the
selectivity of Pd-Me cleavage. For the pyridine-carbene complexes there is a clear preference for
protonation trans to the carbene. For phosphino-carbene complexes, however, the site of protonation
depends on the steric bulk of the N-heterocyclic carbene ligand. Protonation trans to carbene is favored
with small substituents (H, Me), but the bulky 2,6-Pri2C6H3 susbstituent induces protonation trans to the
phosphine, as is seen experimentally.
This record has no associated files available for download.
More information
Published date: 2007
Identifiers
Local EPrints ID: 43830
URI: http://eprints.soton.ac.uk/id/eprint/43830
ISSN: 0276-7333
PURE UUID: 15113de0-bdcc-49cf-8d8f-4f70bf30b7e1
Catalogue record
Date deposited: 31 Jan 2007
Last modified: 15 Mar 2024 08:58
Export record
Altmetrics
Contributors
Author:
Andreas A. Danopoulos
Author:
Nikolaos Tsoureas
Author:
Stuart A. MacGregor
Author:
Christopher Smith
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics