Journal
DALTON TRANSACTIONS
Volume 46, Issue 11, Pages 3742-3748Publisher
ROYAL SOC CHEMISTRY
DOI: 10.1039/c7dt00096k
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Funding
- National Science Foundation [CHE-1111563]
- Australian Research Council
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This report describes a computational study of C(sp(3))-OR bond formation from PdIV complexes of general structure PdIV(CH2CMe2-o-C6H4-C, C')(F)(OR)(bpy-N, N') (bpy = 2,2'-bipyridine). Dissociation of -OR from the different octahedral Pd-IV starting materials results in a common square-pyramidal Pd-IV cation. An S(N)2-type attack by -OR (-OR = phenoxide, acetate, difluoroacetate, and nitrate) then leads to C(sp(3))-OR bond formation. In contrast, when -OR = triflate, concerted C(sp(3))-C(sp(2)) bond-forming reductive elimination takes place, and the calculations indicate this outcome is the result of thermodynamic rather than kinetic control. The energy requirements for the dissociation and S(N)2 steps with different -OR follow opposing trends. The S(N)2 transition states exhibit Pd center dot center dot center dot C center dot center dot center dot O angles in a tight range of 151.5 to 153.0 degrees, resulting from steric interactions between the oxygen atom and the gem-dimethyl group of the ligand. Conformational effects for various OR ligands and isomerisation of the complexes were also examined as components of the solution dynamics in these systems. In all cases, the trends observed computationally agree with those observed experimentally.
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