Aerobically stable and substitutionally labile α-diimine rhenium dicarbonyl complexes

Schindler, Kevin; Crochet, Aurélien; Zobi, Fabio

doi:10.1039/D1RA00514F

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Aerobically stable and substitutionally labile α-diimine rhenium dicarbonyl complexes

Schindler, Kevin University of Fribourg
Crochet, Aurélien University of Fribourg
Zobi, Fabio University of Fribourg

2021

Published in:

RSC Advances. - 2021, vol. 11, p. 7511-7520

Rhenium Chemistry

English New synthetic routes to aerobically stable and substitutionally labile α-diimine rhenium(I) dicarbonyl complexes are described. The molecules are prepared in high yield from the cis–cis–trans-[Re(CO)2(tBu2bpy)Br2]− anion (2, where tBu2bpy is 4,4′- di-tert-butyl-2,2′-bipyridine), which can be isolated from the one electron reduction of the corresponding 17-electron complex (1). Compound 2 is stable in the solid state, but in solution it is oxidized by molecular oxygen back to 1. Replacement of a single bromide of 2 by σ-donor monodentate ligands (Ls) yields stable neutral 18-electron cis–cis–trans-[Re(CO)2(tBu2bpy)Br(L)] species. In coordinating solvents like methanol the halide is replaced giving the corresponding solvated cations. [Re(CO)2(tBu2bpy)Br(L)] species can be further reacted with Ls to prepare stable cis– cis–trans-[Re(CO)2(tBu2bpy)(L)2]+ complexes in good yield. Ligand substitution of Re(I) complexes proceeds via pentacoordinate intermediates capable of Berry pseudorotation. In addition to the cis–cis–trans-complexes, cis–cis–cis- (all cis) isomers are also formed. In particular, cis–cis–trans-[Re(CO)2(tBu2bpy)(L)2]+ complexes establish an equilibrium with all cis isomers in solution. The solid state crystal structure of nearly all molecules presented could be elucidated. The molecules adopt a slightly distorted octahedral geometry. In comparison to similar fac- [Re(CO)3]+complexes, Re(I) diacarbonyl species are characterized by a bend (ca. 7°) of the axial ligands towards the α-diimine unit. [Re(CO)2(tBu2bpy)Br2]− and [Re(CO)2(tBu2bpy)Br(L)] complexes may be considered as synthons for the preparation of a variety of new stable diamagnetic dicarbonyl rhenium cis-[Re(CO)2]+ complexes, offering a convenient entry in the chemistry of the core.

Faculty

Faculté des sciences et de médecine

Department

Département de Chimie

Language

English

Classification

Chemistry

License

License undefined

Identifiers

RERO DOC 330328
DOI 10.1039/D1RA00514F

Persistent URL

https://folia.unifr.ch/unifr/documents/309288

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