Abstract
A series of (N2S2)PdRX complexes (N2S2 = 2,11-dithia[3.3](2,6)pyridinophane; R = X = Me, 1; R = Me, X = Cl, 2; R = Me, X = Br, 3; R = X = Cl, 4) were synthesized, and their structural and electronic properties were investigated. X-ray crystal structures show that for the corresponding Pd(II) complexes the N2S2 ligand adopts a κ 2 conformation, with the pyridine N donors binding in the equatorial plane. Cyclic voltammetry (CV) studies suggest that the Pd(III) oxidation state is accessible at moderate redox potentials. In situ EPR, ESI-MS, UV–vis, and low-temperature electrochemical studies were employed to detect the formation of Pd(III) species during the oxidation of Pd(II) precursors. In addition, the [(N2S2)Pd IV Me 2 ](PF 6 ) 2 ([1 2+ ](PF 6 ) 2 ) complex was isolated by oxidation of 1 with 2 equiv of FcPF 6 , and its structural characterization reveals an octahedral Pd(IV) center. The reversible Pd IV/III redox couple for the Pd(IV) species supports the observed formation of the Pd(III)–dimethyl species upon chemical reduction of 1 2+ . In addition, reactivity studies reveal ethane, MeCl, and MeBr elimination upon one-electron oxidation of 1 (as well as the one-electron reduction of 1 2+ ), 2, and 3, respectively. Mechanistic studies suggest the initial formation of a Pd(III) species, followed by methyl group transfer/disproportionation and subsequent reductive elimination from a Pd(IV) intermediate, although a halogen radical pathway cannot be completely excluded during C–halide bond formation. Interestingly, computational results suggest that the N2S2 ligand stabilizes to a greater extent the Pd(IV) vs the Pd(III) oxidation state, likely due to steric rather than electronic effects.
Original language | American English |
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Journal | Organometallics |
Volume | 32 |
DOIs | |
State | Published - Jun 10 2013 |
Keywords
- Palladium
- Oxidation reactions
- Oxidation
- Ligands
- Mathematical methods
Disciplines
- Chemistry
- Inorganic Chemistry
- Life Sciences
- Biochemistry, Biophysics, and Structural Biology
- Biochemistry