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Stable Tetrasubstituted Quinone Redox Reservoir for Enhancing Decoupled Hydrogen and Oxygen Evolution

Fei Wang, Hongyuan Sheng, Wenjie Li, James B. Gerken, Song Jin, Shannon S. Stahl

2021ACS Energy Letters45 citationsDOIOpen Access PDF

Abstract

Redox reservoirs (RRs) may be used to decouple the two half-reactions of water electrolysis, enabling the spatial and temporal separation of hydrogen and oxygen evolution. Organic RRs are appealing candidates for this application; however, their instability limits their utility. Here we show that a tetrathioether-substituted quinone, tetramercaptopropanesulfonate quinone (TMQ), exhibits significantly enhanced stability relative to anthraquinone-2,7-disulfonate, the most effective organic RR reported previously. The enhanced stability, confirmed by symmetric flow-battery experiments under relevant conditions, enables the stable electrochemical production of H2 and O2 in a continuous-flow electrolysis cell. The reduced RR, tetramercaptopropanesulfonate hydroquinone, is not susceptible to decomposition, whereas the oxidized state, TMQ, undergoes slow decomposition, evident only after sustained operation (>60 h). The analysis of the byproducts provides the basis for a decomposition mechanism, establishing a foundation for the design of new organic RRs with even better performance.

Topics & Concepts

QuinoneRedoxElectrolysisChemistryDecompositionHydroquinoneElectrochemistryAnthraquinoneOxygenElectrolysis of waterPhotochemistryInorganic chemistryElectrodeOrganic chemistryElectrolytePhysical chemistryAdvanced battery technologies researchElectrocatalysts for Energy ConversionFuel Cells and Related Materials