Efficient Disproportionation of Formic Acid to Methanol Using Molecular Ruthenium Catalysts

The disproportionation of formic acid to methanol was unveiled in 2013 using iridium catalysts. Although attractive, this transformation suffers from very low yields; methanol was produced in less than 2 % yield, because the competitive dehydrogenation of formic acid (to CO2 and H2) is favored. We r...

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Veröffentlicht in:Angewandte Chemie International Edition 2014-09, Vol.53 (39), p.10466-10470
Hauptverfasser: Savourey, Solène, Lefèvre, Guillaume, Berthet, Jean-Claude, Thuéry, Pierre, Genre, Caroline, Cantat, Thibault
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Sprache:eng
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Zusammenfassung:The disproportionation of formic acid to methanol was unveiled in 2013 using iridium catalysts. Although attractive, this transformation suffers from very low yields; methanol was produced in less than 2 % yield, because the competitive dehydrogenation of formic acid (to CO2 and H2) is favored. We report herein the efficient and selective conversion of HCOOH to methanol in 50 % yield, utilizing ruthenium(II) phosphine complexes under mild conditions. Experimental and theoretical (DFT) results show that different convergent pathways are involved in the production of methanol, depending on the nature of the catalyst. Reaction intermediates have been isolated and fully characterized and the reaction chemistry of the resulting ruthenium complexes has been studied. The search for selectivity: Methanol is efficiently produced in >50 % yield by the disproportionation of formic acid using molecular ruthenium catalysts. Mechanistic experimental and DFT investigations have unveiled different pathways involving transient ruthenium hydride species.
ISSN:1433-7851
1521-3773
DOI:10.1002/anie.201405457