Synthesis and characterization of terminal [Re(XCO)(CO)2(triphos)] (X=N, P): isocyanate versus phosphaethynolate complexes

Simone Alidori; Dominikus Heift; Gustavo Santiso-Quinones; Zoltán Benkő; Hansjörg Grützmacher; Maria Caporali; Luca Gonsalvi; Andrea Rossin; Maurizio Peruzzini

doi:10.1002/chem.201202590

Synthesis and characterization of terminal [Re(XCO)(CO)2(triphos)] (X=N, P): isocyanate versus phosphaethynolate complexes

Chemistry. 2012 Nov 12;18(46):14805-11. doi: 10.1002/chem.201202590. Epub 2012 Sep 28.

Authors

Simone Alidori¹, Dominikus Heift, Gustavo Santiso-Quinones, Zoltán Benkő, Hansjörg Grützmacher, Maria Caporali, Luca Gonsalvi, Andrea Rossin, Maurizio Peruzzini

Affiliation

¹ Department of Chemistry and Applied Biology, ETH Zürich, Switzerland.

PMID: 23019045
DOI: 10.1002/chem.201202590

Abstract

The terminal rhenium(I) phosphaethynolate complex [Re(PCO)(CO)(2)(triphos)] has been prepared in a salt metathesis reaction from Na(OCP) and [Re(OTf)(CO)(2)(triphos)]. The analogous isocyanato complex [Re(NCO)(CO)(2)(triphos)] has been likewise prepared for comparison. The structure of both complexes was elucidated by X-ray diffraction studies. While the isocyanato complex is linear, the phosphaethynolate complex is strongly bent around the pnictogen center. Computations including natural bond orbital (NBO) theory, natural resonance theory (NRT), and natural population analysis (NPA) indicate that the isocyanato complex can be viewed as a classic Werner-type complex, that is, with an electrostatic interaction between the Re(I) and the NCO group. The phosphaethynolate complex [Re(P=C=O)(CO)(2)(triphos)] is best described as a metallaphosphaketene with a Re(I)-phosphorus bond of highly covalent character.