Litcius/Paper detail

Tin–Ruthenium Cooperative Catalyst for Disproportionation of Formic Acid to Methanol

Hiroaki Fujita, Shin Takemoto, Hiroyuki Matsuzaka

2021ACS Catalysis19 citationsDOI

Abstract

The disproportionation of formic acid to methanol and CO2 offers a renewable route to methanol avoiding the use of high-pressure H2. Previous studies have identified competent transition-metal catalysts that nonetheless experienced unsatisfactory methanol selectivity because of competing formic acid dehydrogenation, motivating further catalyst improvement. Herein we report a bimetallic cooperative catalyst based on tin(II) oxide and a ruthenium complex for the disproportionation of formic acid to methanol. The diruthenium complex [(Cp*Ru)2(μ-NPh)(μ-CH2)] (Cp* = η5-C5Me5) combined with tin(II) oxide gave methanol (and methyl formate) in up to 28% selectivity and 191 turnovers under optimized conditions. The isolation of a Ru2Sn heterotrimetallic complex [{Cp*Ru(CO)2}2Sn(O2CH)2] from a catalytic reaction mixture indicated the generation of an active Ru–Sn bonded species in situ. Reaction pathways involving a tin(II) formate unit supported by Ru–Sn bonds are discussed with the aid of computational results.

Topics & Concepts

DisproportionationCatalysisFormic acidBimetallic stripMethanolMethyl formateChemistryRutheniumFormateDehydrogenationTinSelectivityInorganic chemistryOrganic chemistryCarbon dioxide utilization in catalysisAsymmetric Hydrogenation and CatalysisOrganometallic Complex Synthesis and Catalysis