Stannaborate transition metal chemistry: ligand properties, reactivity, and density functional theory calculations of platinum and palladium complexes |
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Authors: | Marx T Wesemann L Dehnen S Pantenburg I |
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Institution: | Institut für Anorganische Chemie Universit?t zu K?ln, Germany. |
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Abstract: | Three stannaborate complexes of platinum(II) and a novel stannoborate palladium(II) derivative have been prepared in excellent yield. The tin transition metal bond is formed through nucleophilic substitution and the resulting complexes Bu3MeN] trans-(Et3P)2Pt(SnB11H11)H]] (6), trans-(Et3P)2Pt(SnB11H11)(CNtBu)]] (7), Bu3MeN]2trans-(Et3P)2Pt(SnB11H11)2-(CNtBu)]] (8), and Bu3MeN](dppe)-Pd(SnB11H11)Me] (12) (dppe = 1,2-bis-(diphenylphosphanyl)ethane) were characterized by NMR spectroscopy and elemental analysis. In the cases of the zwitterion 7, the pentacoordinated complex 9, the palladium salt 12 and (triphos)Pt(SnB11H11)] (10) (triphos = 1,1,1-tris(diphenylphosphanylmethyl)ethane), their solid-state structures are determined by X-ray crystal structure analyses. The trans influence of the SnB11H11] ligand is evaluated from the results of the IR spectroscopy and X-ray crystallographic structures of complexes 6, 7, and 12. The dipole moment of the zwitterion 7 is calculated by density functional theory (DFT) methods. The alignment of the dipole moments of the polar molecules 7 and 12 in the solid state is discussed. |
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