Zintl cluster supported low coordinate Rh(i) centers for catalytic H/D exchange between H2 and D2

Oliver P E Townrow; Simon B Duckett; Andrew S Weller; Jose M Goicoechea

doi:10.1039/d2sc02552c

Zintl cluster supported low coordinate Rh(i) centers for catalytic H/D exchange between H₂ and D₂

Chem Sci. 2022 Jun 9;13(25):7626-7633. doi: 10.1039/d2sc02552c. eCollection 2022 Jun 29.

Authors

Oliver P E Townrow¹, Simon B Duckett², Andrew S Weller², Jose M Goicoechea¹

Affiliations

¹ Department of Chemistry, University of Oxford, Chemistry Research Laboratory 12 Mansfield Road Oxford OX1 3TA UK [email protected].
² Department of Chemistry, University of York YO10 5DD UK [email protected].

Abstract

Ligand exchange reactions of [Rh(COD){η⁴-Ge₉(Hyp)₃}] with L-type nucleophiles such as PMe₃, PPh₃, IMe₄ (IMe₄ = 1,3,4,5-tetramethylimidazol-2-ylidene) or [W(Cp)₂H₂] result in the displacement of the COD ligand to afford clusters with coordinatively unsaturated trigonal pyramidal rhodium(i) centers [Rh(L){η³-Ge₉(Hyp)₃}]. These species can be readily protonated allowing access to cationic rhodium-hydride complexes, e.g. [RhH(PPh₃){η³-Ge₉(Hyp)₃}]⁺. These clusters act as catalysts in H/D exchange between H₂ and D₂ and alkene isomerisation, thereby illustrating that metal-functionalized Zintl clusters are active in both H-H and C-H bond activation processes. The mechanism of H/D exchange was probed using parahydrogen induced polarization experiments.