Rhodium(iii) and ruthenium(ii) complexes of redox-active, chelating N-heterocyclic carbene/thioether ligands

Labande, Agnès; Daran, Jean‐Claude; Long, Nicholas J.; White, Andrew J. P.; Poli, Rinaldo

doi:10.1039/c1nj20224c

Cited by 25 publications

(8 citation statements)

References 77 publications

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“…Coordination of potassium to the deprotonated reactive carbene species was confirmed by the appearance of a downfield signal at 152.46 ppm which corresponded to a carbene–K bond. This is similar to values recorded for related metal–NHC bonds . An important work by Arnold et al .…”

Section: Resultssupporting

confidence: 90%

Application of ferrocenylimidazolium salts as catalysts for the transfer hydrogenation of ketones

Ikhile

Bala

Nyamori

et al. 2013

Applied Organom Chemis

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Ferrocenylimidazolium salts with methylene and phenyl groups bridging the ferrocenyl and alkylimidazolium moieties were synthesized and characterized by spectroscopic and analytical methods. Crystal structures of two new compounds are also reported. Cyclic voltammetry was used to analyze the influence of the two bridging groups or spacers on electrochemical properties of the salts relative to the shifts in the formal electrode or peak potentials (E 0 or E 1/2 ) of the ferrocene/ferrocenium redox couple. Results from this study showed that all the salts exhibited higher electrode potentials relative to ferrocene, which is due to the electron-withdrawing effect of the imidazolium ion on the ferrocenyl moiety. Application of the salts as catalysts in transfer hydrogenation of ketones resulted in high conversion of saturated ketones to corresponding alcohols and turnover numbers as high as 1880. The catalysts were chemoselective towards reduction of the C ═ C bonds of conjugated 3-penten-2-one and 4-hexen-3-one to yield saturated ketones, while unconjugated 5-hexen-2-one was hydrogenated to an unsaturated alcohol.

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Section: Resultssupporting

confidence: 90%

Application of ferrocenylimidazolium salts as catalysts for the transfer hydrogenation of ketones

Ikhile

Bala

Nyamori

et al. 2013

Applied Organom Chemis

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“…In this regard, N‐heterocyclic carbenes bearing a thioether pendant function (Figure 1) are also an interesting class of ligands, that has found application both in homogeneous catalysis and bioinorganic chemistry. Particularly, these S‐functionalized NHCs may show a chelating ability which results in the formation of highly stable complexes with a strong σ‐donor function (the NHC moieties) and a weaker one (the sulfur atom) [12–17] . The hemilabile equilibrium of sulfur chelating ligand can be of high importance for the development of efficient catalysts: a momentary dissociation of the heteroatom from the metal during a catalytic cycle releases a coordination site and allows the coordination of the substrate, while preserving the stability of the metal complex with the coordination of the NHC ligand.…”

Section: Introductionmentioning

confidence: 99%

Synthesis, Structural Characterization and Antiproliferative Activity of Gold(I) and Gold(III) Complexes Bearing Thioether‐Functionalized N‐Heterocyclic Carbenes

et al. 2021

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A series of gold(I) and gold(III) complexes with N‐heterocyclic carbene ligands functionalized with a pendant thioether group (NHC‐SR) was synthesized with straightforward procedures and characterized in solution with NMR spectroscopy and ESI‐MS spectrometry, as well as in the solid state by means of single crystal X‐ray diffraction analysis. Selected experimental aspects were rationalized through relativistic DFT calculations. The gold(I) and gold(III) complexes displayed moderate in vitro cytotoxicity towards breast cancer cells MCF7.

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“…Our group has a strong interest in the chemistry and catalytic activity of functionalised Nheterocyclic carbene complexes [17][18][19][20][21]. We have recently investigated the behaviour of a 1,5-cyclooctadiene (COD) rhodium(I) complex bearing a ferrocenyl phosphine-NHC ligand, 1, towards oxidation (figure 1) [21].…”

Section: Introductionmentioning

confidence: 99%

A rhodium(I) dicarbonyl complex with a redox-active ferrocenyl phosphine-NHC ligand: Enhanced reactivity of the metal centre through ferrocene oxidation

et al. 2015

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A rhodium(I) dicarbonyl complex bearing a bidentate ferrocenyl phosphine-NHC ligand has been synthesized and characterized by NMR, IR spectroscopy, mass spectrometry and X-Ray diffraction methods. Its behaviour towards oxidation was investigated and revealed that changing the oxidation state of ferrocene can significantly modify the electron density at rhodium. Oxidation of the rhodium(I) dicarbonyl complex in acetonitrile furnished an airstable rhodium(III) complex, stabilized by acetonitrile molecules and with an interesting C-H bond activation at ferrocene. This new rhodium(III) complex is active for the hydrosilylation of acetophenone and its derivatives.

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Rhodium(iii) and ruthenium(ii) complexes of redox-active, chelating N-heterocyclic carbene/thioether ligands

Cited by 25 publications

References 77 publications

Application of ferrocenylimidazolium salts as catalysts for the transfer hydrogenation of ketones

Application of ferrocenylimidazolium salts as catalysts for the transfer hydrogenation of ketones

Synthesis, Structural Characterization and Antiproliferative Activity of Gold(I) and Gold(III) Complexes Bearing Thioether‐Functionalized N‐Heterocyclic Carbenes

A rhodium(I) dicarbonyl complex with a redox-active ferrocenyl phosphine-NHC ligand: Enhanced reactivity of the metal centre through ferrocene oxidation

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