Issue 1, 2018

Coordination chemistry of stannylene-based Lewis pairs – insertion into M–Cl and M–C bonds. From base stabilized stannylenes to bidentate ligands

Abstract

The coordination chemistry of intramolecular stannylene phosphorus Lewis pairs incorporated into four membered ring systems is presented. Previously reported coordination chemistry of stannylene and phosphorus towards palladium(0) is extended by using Pd(nbe)3 as a precursor, yielding co-ligand free complexes. An equilibrium of one or two stannylene phosphorus ligands coordinated to Pd(0) was observed with tin acting either as a donor or an acceptor towards palladium. Furthermore, the reactions with transition metal(I) chlorides, [(cod)IrCl]2, [(cod)RhCl]2 and Me2SAuCl are reported. They proceed via insertion of stannylene into the M–Cl bonds, yielding metal complexes with chelating stannide phosphorus ligands. For gold, a dinuclear complex with bridging P–Sn ligands was formed. Furthermore, the reaction of a P → Sn Lewis pair in a three membered ring system with (cod)PtMe2 is reported.

Graphical abstract: Coordination chemistry of stannylene-based Lewis pairs – insertion into M–Cl and M–C bonds. From base stabilized stannylenes to bidentate ligands

Supplementary files

Article information

Article type
Paper
Submitted
27 Oct 2017
Accepted
30 Nov 2017
First published
11 Dec 2017

Dalton Trans., 2018,47, 83-95

Coordination chemistry of stannylene-based Lewis pairs – insertion into M–Cl and M–C bonds. From base stabilized stannylenes to bidentate ligands

K. M. Krebs, S. Freitag, J.-J. Maudrich, H. Schubert, P. Sirsch and L. Wesemann, Dalton Trans., 2018, 47, 83 DOI: 10.1039/C7DT04044J

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