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- Title
Exploring the Oxidative-Addition Pathways of Phenyl Chloride in the Presence of Pd<sup>II</sup> Abnormal N-Heterocyclic Carbene Complexes: A DFT Study.
- Authors
Mondal, Totan; De, Sriman; Maity, Bholanath; Koley, Debasis
- Abstract
DFT calculations were performed to elucidate the oxidative addition mechanism of the dimeric palladium(II) abnormal N-heterocyclic carbene complex 2 in the presence of phenyl chloride and NaOMe base under the framework of a Suzuki-Miyaura cross-coupling reaction. Pre-catalyst 2 undergoes facile, NaOMe-assisted dissociation, which led to monomeric palladium(II) species 5, 6, and 7, each of them independently capable of initiating oxidative addition reactions with PhCl. Thereafter, three different mechanistic routes, path a, path b, and path c, which originate from the catalytic species 5, 7, and 6, were calculated at M06- L-D3(SMD)/LANL2TZ(f)(Pd)/6-311++G**//M06-L/LANL2DZ(Pd)/6-31+G* level of theory. All studied routes suggested the rather uncommon PdII/PdIV oxidative addition mechanism to be favourable under the ambient reaction conditions. Although the Pd0/PdII routes are generally facile, the final reductive elimination step from the catalytic complexes were energetically formidable. The PdII/PdIV activation barriers were calculated to be 11.3, 9.0, 26.7 kcal mol−1 (ΔΔ≠ GLS-D3) more favourable than the PdII/Pd0 reductive elimination routes for path a, path b, and path c, respectively. Out of all the studied pathways, path a was the most feasible as it comprised of a PdII/PdIV activation barrier of 24.5 kcal mol−1 (Δ GLS-D3). To further elucidate the origin of transition-state barriers, EDA calculations were performed for some key saddle points populating the energy profiles.
- Subjects
PALLADIUM compounds; CHLOROBENZENE; CARBENES; OXIDATIVE addition; DENSITY functional theory; HETEROCYCLIC compounds; SODIUM compounds; REACTION mechanisms (Chemistry)
- Publication
Chemistry - A European Journal, 2016, Vol 22, Issue 44, p15778
- ISSN
0947-6539
- Publication type
Article
- DOI
10.1002/chem.201602735