Electrochemical Capture and Release of Carbon Dioxide Using a Disulfide–Thiocarbonate Redox Cycle

We describe a new electrochemical cycle that enables capture and release of carbon dioxide. The capture agent is benzylthiolate (RS^–), generated electrochemically by reduction of benzyldisulfide (RSSR). Reaction of RS^– with CO₂ produces a terminal, sulfur-bound monothiocarbonate, RSCO₂^–, which acts as the CO₂ carrier species, much the same as a carbamate serves as the CO₂ carrier for amine-based capture strategies. Oxidation of the thiocarbonate releases CO₂ and regenerates RSSR. The newly reported <i>S</i>-benzylthiocarbonate (IUPAC name benzylsulfanylformate) is characterized by ¹H and ¹³C NMR, FTIR, and electrochemical analysis. The capture–release cycle is studied in the ionic liquid 1-butyl-1-methylpyrrolidinium bis­(trifluoro­methyl­sulfonyl)­imide (BMP TFSI) and dimethylformamide. Quantum chemical calculations give a binding energy of CO₂ to benzyl thiolate of −66.3 kJ mol^–1, consistent with the experimental observation of formation of a stable CO₂ adduct. The data described here represent the first report of electrochemical behavior of a sulfur-bound terminal thiocarbonate