Abstract
After room temperature saturation of dehydrated NiY with trimethylphosphine two complexes are formed in the supercages. They are identified and quantified by reflectance spectroscopy as 0.9[Ni(PMe3)5]2+ per unit cell and 6–8[(O1)3—Ni—PMe3]2+ per unit cell (O1 is a lattice oxygen). The former is diamagnetic and trigonal bipyramidal, the latter is paramagnetic and compressed tetrahedral. [Ni(PMe3)5]2+ is only stable in excess PMe3, while the mono-phosphine complex is stable to ≈ 383 K in vacuo. On NiX only the paramagnetic compressed tetrahedral complex is formed. The ligand field parameters of this complex were calculated.Chemisorption on lattice and extralattice oxygens gives strongly held OPMe3, OP(OMe3)3 and a range of decomposition products such as CO, CO2, H2O, hydrocarbons and oxygenated P on the surface. These products were qualitatively identified by i.r. and mass spectrometry.
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Schedule a callMore From: Journal of the Chemical Society, Faraday Transactions 1: Physical Chemistry in Condensed Phases
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