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Formic acid dehydrogenation using Ruthenium-POP pincer complexes in ionic liquids.


ABSTRACT: Formic acid is one of the most promising candidates for the long-term storage of hydrogen in liquid form. Herein, we present a new collection of ruthenium pincer complexes of the general formula [RuHCl(POP)(PPh3)] using commercially available or easy-to-synthesize tridentate xantphos-type POP pincer ligands. We applied these complexes in the dehydrogenation of formic acid to CO2 and H2 using the ionic liquid BMIM OAc (1-butyl-3-methylimidazolium acetate) as solvent under mild, reflux-free conditions. The best performing catalyst with respect to maximum turnover frequency, the literature-known complex [RuHCl(xantphos)(PPh3)] Ru-1, produced a maximum turnover frequency of 4525 h-1 with 74% conversion after 10 min at 90 °C and complete conversion (> 98%) occurring within 3 h. On the other hand, the best overall performing catalyst, the novel complex [RuHCl(iPr-dbfphos)(PPh3)] Ru-2, facilitated full conversion within 1 h leading to an overall turnover frequency of 1009 h-1. Moreover, catalytic activity was observed at temperatures as low as 60 °C. Only CO2 and H2 are observed in the gas phase, with no CO detected. High-resolution mass spectrometry suggests the presence of N-heterocyclic carbene complexes in the reaction mixture.

SUBMITTER: Nikol AT 

PROVIDER: S-EPMC11527872 | biostudies-literature | 2024 Oct

REPOSITORIES: biostudies-literature

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Formic acid dehydrogenation using Ruthenium-POP pincer complexes in ionic liquids.

Nikol Alexander Tobias AT   Rabell Brenda B   Jørgensen Mike Steffen Bernhard MSB   Larsen René Wugt RW   Nielsen Martin M  

Scientific reports 20241031 1


Formic acid is one of the most promising candidates for the long-term storage of hydrogen in liquid form. Herein, we present a new collection of ruthenium pincer complexes of the general formula [RuHCl(POP)(PPh<sub>3</sub>)] using commercially available or easy-to-synthesize tridentate xantphos-type POP pincer ligands. We applied these complexes in the dehydrogenation of formic acid to CO<sub>2</sub> and H<sub>2</sub> using the ionic liquid BMIM OAc (1-butyl-3-methylimidazolium acetate) as solve  ...[more]

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