Dibya Yadav scite author profile

Cationic ruthenium pincer complexes, [Ru(CNC)(CO)(PPh 3 )Cl]X (CNC = 2,6-bis) with triphenylphosphine, CO and halides as coligands have been synthesised and characterised by 1 H, 13 C, 31 P NMR, mass and single-crystal X-ray crystallography. The application of Ru complexes in the transfer hydrogenation of a wide range of ketones with 2-propanol as the hydrogen source is explored. The in situ transformations observed during the synthesis help understand and suggest a plausible mechanism via the hydride complex 3b. All complexes appear to be efficient catalyst precursors for transfer hydrogenation of ketones.

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Cationic ruthenium(II)-NHC pincer complexes with hemilabile COD: Solid-state structural characterization and theoretical study of an η2-(E,Z)-COD ligand

Yadav

Singh

et al. 2021

Journal of Organometallic Chemistry

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Ancillary ligand effects and microwave‐assisted enhancement on the catalytic performance of cationic ruthenium(II)‐CNC pincer complexes for acceptorless alcohol dehydrogenation

Yadav

Singh

Misra

et al. 2022

Applied Organom Chemis

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The application of cationic Ru(II)‐CNC pincer complexes [Ru(CNC)(CO)(PPh3)Cl]PF6 (1), [Ru(CNC)(PPh3)2Cl]PF6 (2), [Ru(CNC)(η2:η2‐COD)Cl]PF6 (4), and [Ru(CNC)(DMSO)2Cl]PF6 (5) in acceptorless dehydrogenation of alcohols is reported under conventional “oil‐bath” and microwave heating conditions. The effect of different ancillary ligands (CO, PPh3, COD, and DMSO) have been demonstrated during catalysis. Complexes with more π‐acid ligands CO and COD perform better compared with those with PPh3 and DMSO ligands. A plausible mechanism is proposed based on NMR and mass investigation during the catalysis. The catalytic performance matches with the order of trans effect among the four ancillary ligands studied in these complexes. Further, a significant reduction in reaction time, as well as reaction temperature, was observed for catalytic reactions under the microwave‐assisted reaction compared with the oil‐bath heating reaction.

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Mechanistic investigation of electrocatalytic reductive amination at copper electrode

et al. 2023

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Dibya Yadav

Cationic ruthenium(II)–NHC pincer complexes: Synthesis, characterisation and catalytic activity for transfer hydrogenation of ketones

Cationic ruthenium(II)-NHC pincer complexes with hemilabile COD: Solid-state structural characterization and theoretical study of an η2-(E,Z)-COD ligand

Ancillary ligand effects and microwave‐assisted enhancement on the catalytic performance of cationic ruthenium(II)‐CNC pincer complexes for acceptorless alcohol dehydrogenation

Mechanistic investigation of electrocatalytic reductive amination at copper electrode

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