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Abstract
Supporting ligands limit the degree of electrophilic ac-tivation for any substrate because they also reduce the Lewis acidity of the transition metal ion. Here, we tem-porarily mask the Lewis acidity of dicationic Pd(II) by using “shapeshifting” bidentate pyrimidine/olefin lig-ands L1 and L2. These ligands delocalize/relocalize charge via reversible C–N bond formation. So, although ligated dicationic Pd compounds [1]2+ and [2]2+ appear charge separated (distributed across Pd and ligand), they react comparably to a solvated Pd(II) dication. We also observe properties that are atypical of electrophilic cata-lysts (e.g. broader functional group tolerance). We pro-pose these properties originate from the more nucleo-philic (charge separated) state. More broadly, catalysts featuring reversible dynamics may be advantaged rela-tive to structurally static counterparts.
Supplementary materials
Title
supplemental information
Description
synthesis procedures, spectroscopic data, kinetic data
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