Abstract
We have systematically explored the factors impacting the stability and reactivity of the [Pd(O2CR)2]2 and [Pd(OAc)(DG-Ar)]2 dimers in Pd(OAc)2-catalyzed and directing group (DG)-assisted C–H functionalization using density functional theory (DFT) calculations. It was shown that the palladium acetate dimer stability (vs the monomer) predominantly arises from interactions between the paddlewheel ligands and the Pd centers. R-substitution in Pd(O2CR)2 leading to an increase (or decrease) in the electron density of the ligand orbitals polarizes the Pd–ligand interaction and weakens (or strengthens) the stability of the [Pd(O2CR)2]2 dimer relative to the monomer. The nature of the substrate/ligand-Pd interaction is shown to be another factor contributing to the nuclearity and reactivity of the Pd-acetates in directing group-assisted C–H functionalization. For the [Pd(OAc)(DG-Ar)]2 dimer, we have found that the major interactions contributing to the stability of the dimer are the bridging acetate interactions ...
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