Publication | Open Access
Decomposition pathways and mitigation strategies for highly-stable hydroxyphenazine flow battery anolytes
42
Citations
33
References
2021
Year
Combinatorial ChemistryHydroxy-substituted PhenazinesEngineeringOrganic ChemistryChemistryHeterocycle ChemistryAqueous BatteryTautomerization Side ReactionsHydroxy GroupsChemical EngineeringMitigation StrategiesElectrochemical Power SourceEnergy StorageDecomposition PathwaysPharmacologyElectrochemistryElectric BatteryElectrochemical Energy StorageBatteriesSynthetic Chemistry
Tautomerization side reactions that limit cycling stability in hydroxy-substituted phenazines can be minimized by judicious location of the hydroxy groups on the phenazine, as demonstrated both computationally and experimentally.
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