A method is proposed for the direct measurement of the .pi.-acidity of ligands coordinated to a metal center. The four-coordinate complex [PtI2(Me2-phen)] (Me2-phen = 2,9-dimethyl-1,10-phenanthroline) is unique since it behaves as a mol. trap and, in the presence of a nucleophile (L), one end of it dissocs. to allow the L ligand to coordinate trans to the monocoordinated diamine. The coordination of the free end of the phenanthroline is impeded by the filled d orbitals of the metal lying in the same plane as the phenanthroline (dyz and dz2 electrons assuming as x-axis that of the I-Pt-I vector). However, if the L ligand is a .pi.-acid able to remove electron charge from the yz plane, the second end of the phenanthroline will also be able to interact with platinum. A linear correlation is found between the crystallog. N-Pt-L angle (180 in ideal square-planar species and 143 in a trigonal bipyramid with a bite angle for bidentate Me2-phen of 74) and the .pi.-acceptor capacity of the L ligand as estd. by ab initio calcns. Alkenes and alkynes are found to be among the best .pi.-acids and lead to a regular trigonal-bipyramidal five-coordinate species. CO appears to be only halfway in between the best .pi.-acceptor ligands and those with smallest .pi.-acidity. P-, S-, and N-donor ligands follow in that order without significant differences between sulfides and sulfoxides or between aliph. amines and pyridine. The very small difference between aliph. amines and pyridine has been confirmed by investigation of the rate of exchange between the two ends for monocoordinated phenanthroline by 1H NMR spectroscopy. The activation energy (G.dbldag.) was found to be equal, within the exptl. error, for the two types of trans ligands.

A molecular tool for measuring the electron-acceptor ability of ligands from crystallographic data.

FANIZZI, Francesco Paolo;
2004-01-01

Abstract

A method is proposed for the direct measurement of the .pi.-acidity of ligands coordinated to a metal center. The four-coordinate complex [PtI2(Me2-phen)] (Me2-phen = 2,9-dimethyl-1,10-phenanthroline) is unique since it behaves as a mol. trap and, in the presence of a nucleophile (L), one end of it dissocs. to allow the L ligand to coordinate trans to the monocoordinated diamine. The coordination of the free end of the phenanthroline is impeded by the filled d orbitals of the metal lying in the same plane as the phenanthroline (dyz and dz2 electrons assuming as x-axis that of the I-Pt-I vector). However, if the L ligand is a .pi.-acid able to remove electron charge from the yz plane, the second end of the phenanthroline will also be able to interact with platinum. A linear correlation is found between the crystallog. N-Pt-L angle (180 in ideal square-planar species and 143 in a trigonal bipyramid with a bite angle for bidentate Me2-phen of 74) and the .pi.-acceptor capacity of the L ligand as estd. by ab initio calcns. Alkenes and alkynes are found to be among the best .pi.-acids and lead to a regular trigonal-bipyramidal five-coordinate species. CO appears to be only halfway in between the best .pi.-acceptor ligands and those with smallest .pi.-acidity. P-, S-, and N-donor ligands follow in that order without significant differences between sulfides and sulfoxides or between aliph. amines and pyridine. The very small difference between aliph. amines and pyridine has been confirmed by investigation of the rate of exchange between the two ends for monocoordinated phenanthroline by 1H NMR spectroscopy. The activation energy (G.dbldag.) was found to be equal, within the exptl. error, for the two types of trans ligands.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11587/100400
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