Publication | Closed Access
Synthesis of hydrophilic carbon black; role of hydrophilicity in maintaining the hydration level and protonic conduction
62
Citations
33
References
2013
Year
Uniform Hydration LevelEngineeringOrganic ChemistryChemistryChemical EngineeringHigh-performance Hydrophilic CarbonMaterials ScienceBattery Electrode MaterialsAdvanced Electrode MaterialProtonic ConductionEnergy StorageSupercapacitorHydrogenChemical TechnologyElectrochemistryHydration LevelSupercapacitorsHydrophilic CarbonCarbon BlackSupercapacitor Electrodes
We report the low-temperature (250 °C) synthesis of high-performance hydrophilic carbon black for application as a conducting filler in supercapacitor electrodes. Increased water content, due to the hydrophilicity, maintained the uniform hydration level of MnO2/carbon composite electrodes, with good protonic conduction. This results in an increase in the total specific capacitance by 24%.
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