Unusual heterobimetallic palladium(II)–cerium(III) acetate complexes

Indium in Polyoxopalladate(II) Chemistry: Synthesis of All-Acetate-Capped [InPd12O8(OAc)16]5- and Controlled Transformation to Phosphate-Capped Double-Cube and Monocube

We have prepared the indium(III)-centered, all-acetate-capped polyoxopalladate(II) nanocube [InPd₁₂O₈(OAc)₁₆]^5- (InPd₁₂Ac₁₆), which can be further used as precursor to form the phosphate-capped (i) double-cube [In₂Pd₂₃O₁₇(OH)(PO₄)₁₂(PO₃OH)]^21- (In₂Pd₂₃P₁₃) and (ii) monocube [InPd₁₂O₈(PO₄)₈]^13- (InPd₁₂P₈). All three novel polyoxopalladates (POPs) were synthesized using conventional one-pot techniques in aqueous solution and characterized in the solid state (single-crystal XRD, IR, elemental analysis), in solution (¹¹⁵In, ³¹P, and ¹³C NMR), and in the gas phase (ESI-MS).

Heterometallic Palladium(II)-Indium(III) and -Gallium(III) Acetate-Bridged Complexes: Synthesis, Structure, and Catalytic Performance in Homogeneous Alkyne and Alkene Hydrogenation

The reaction of Pd₃(OOCMe)₆ with indium(III) and gallium(III) acetates was studied to prepare new Pd^II-based heterometallic carboxylate complexes with group 13 metals. The heterometallic palladium(II)-indium(III) acetate-bridged complexes Pd(OOCMe)₄In(OOCMe) (1) and Pd(OOCMe)₄In(OOCMe)·MeCOOH (1a) were synthesized and structurally characterized with X-ray crystallography and extended X-ray absorption fine structure in the solid state and solution. A similar Pd-Ga heterometallic complex formed by the reaction of Pd₃(OOCMe)₆ with gallium(III) acetate in a dilute acetic acid solution, as evidenced by atmospheric pressure chemical ionization mass and UV-vis spectrometry, was unstable at higher concentrations and in the solid state. Complex 1 catalyzes the liquid-phase-selective phenylacetylene and styrene hydrogenation (1 atm of H₂ at 20 °C) in acetic acid, ethyl acetate, and N, N-dimethylformamide solutions, while no Pd metal was formed until alkyne and alkene hydrogenation ceased.

The mixed gold-palladium polyoxo-noble-metalate [NaAu(III)4Pd(II)8O8(AsO4)8](11-)

The first fully inorganic, discrete gold-palladium-oxo complex [NaAu(III) 4 Pd(II) 8 O8 (AsO4 )8 ](11-) has been synthesized in aqueous medium. The combination of single-crystal XRD, elemental analysis, mass spectrometry, and DFT calculations allowed establishing the structure and composition of the novel polyanion, and UV/Vis studies suggest that it is stable in neutral aqueous media.