Preparation of trinuclear ruthenium clusters based on piconol ligands and their application in Oppenauer‐type oxidation of secondary alcohols

Abstract: Treatment of Ru3(CO)12 with one equivalent of 2‐indolyl‐6‐pyridinyl‐alcohol ligands 2‐(C8H6N)‐6‐(CR1R2OH)C5H3N (R1 = R2 = Me (L1H); R1 = R2 = C2H5 (L2H); R1, R2 = −(CH2)4‐ (L3H);& R1, R2 = −(CH2)5‐ (L4H)) in refluxing THF afforded the corresponding trinuclear ruthenium clusters L(μ2‐H)Ru3(CO)9 (1a–1d), respectively. All the novel Ru complexes were well characterized by NMR, elemental analyses and IR spectra. Structures of complexes 1a, 1c, and 1d were further determined by X‐ray crystallographic studies. Compl… Show more

“…The hydrido resonances are at δ À10.41 (1), À10.55 (2), À11.02 (3), and À10.59 (4), respectively. [33] The 13 C NMR spectra of the clusters have several peaks around 183.4-205.9 ppm assigned to the terminal carbonyls.…”

Selective oxidation of C (sp³)—H bonds enabled by ruthenium clusters containing pyridine‐alkoxide ligands

“…The hydrido resonances are at δ À10.41 (1), À10.55 (2), À11.02 (3), and À10.59 (4), respectively. [33] The 13 C NMR spectra of the clusters have several peaks around 183.4-205.9 ppm assigned to the terminal carbonyls.…”

Selective oxidation of C (sp³)—H bonds enabled by ruthenium clusters containing pyridine‐alkoxide ligands

Trinuclear ruthenium clusters supported by piconol ligands: Application in catalytic C(sp3)-H bond oxidation in CH3CN/H2O

Efficient acceptorless dehydrogenative oxidation of alcohols catalyzed by ruthenium(II) complexes containing schiff base ligands