Abstract
Terminal mono-oxo complexes of the late transition metal elements have long been considered too unstable to synthesize because of repulsion between the oxygen electrons and the mostly filled metal d orbitals. A platinum(IV)-oxo compound flanked by two polytungstate ligands, K7Na9[O=Pt(H2O)L2], L = [PW9O34(9-)], has now been prepared and isolated at room temperature as air-stable brown crystals. X-ray and neutron diffraction at 30 kelvin revealed a very short [1.720(18) angstrom] Pt-O bond and no evidence of a hydrogen atom at the terminal oxygen, ruling out a better precedented Pt-OH complex. Density functional theory and spectroscopic data account for the stability of the Pt(IV)-oxo unit by electron withdrawal into delocalized orbitals of the polytungstates.
Publication types
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Research Support, U.S. Gov't, Non-P.H.S.
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Research Support, U.S. Gov't, P.H.S.
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Retracted Publication
MeSH terms
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Chemical Phenomena
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Chemistry, Physical
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Crystallization
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Crystallography, X-Ray
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Electrons
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Fourier Analysis
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Hydrogen-Ion Concentration
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Ligands
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Molecular Structure
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Neutron Diffraction
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Oxidation-Reduction
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Oxygen / chemistry*
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Platinum / chemistry
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Platinum Compounds / chemical synthesis
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Platinum Compounds / chemistry*
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Platinum Compounds / isolation & purification
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Spectrum Analysis
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Temperature
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Tungsten / chemistry
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Tungsten Compounds / chemical synthesis
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Tungsten Compounds / chemistry*
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Tungsten Compounds / isolation & purification
Substances
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Ligands
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Platinum Compounds
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Tungsten Compounds
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potassium sodium diaquaoxobis(PW9O34)platinum(IV)
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Platinum
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Oxygen
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Tungsten