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Understanding enhanced charge storage of phosphorus-functionalized graphene in aqueous acidic electrolytes

Gelines Moreno‐Fernández, Juan Luis Gómez‐Urbano, Marina Enterría, Rosalía Cid, Juan Miguel López del Amo, Roman Mysyk, Daniel Carriazo

2020Electrochimica Acta33 citationsDOIOpen Access PDF

Abstract

The mechanisms behind enhanced charge storage of P-functionalized carbons are unraveled for the first time using non-porous graphene oxide treated with phosphoric acid and annealed at either 400 or 800 °C. The electrochemical study in 1 M H2SO4 reveals that phosphorus groups boost charge storage and electrochemical stability, with more effect for the higher annealing temperature. Annealing at 800 °C also leads to the material withstanding 60,000 charge-discharge cycles with no capacitance loss at 1.5 V. The improvement in the electrochemical performance is shown to be mainly governed by the change in surface chemistry comprehensively studied with NMR, FTIR and XPS characterization techniques. The collective analysis of electrochemical response and surface chemistry demonstrates that enhanced charge storage by phosphorus-functionalized graphene materials is made possible due to the following synergistic mechanisms: i) non-Faradaic charging; ii) nascent hydrogen storage in the interlayer; iii) benzoquinone-to-hydroquinone redox processes; iv) phosphate-to-phosphonate like transformation. From the practical perspective, the stored charge can be boosted due to the higher capacitance upon prior electrochemical activation in the vicinity of oxygen evolution potential and the wider usable electrochemical window enabled by phosphorus-related groups.

Topics & Concepts

ElectrochemistryGrapheneHydrogen storageElectrolyteInorganic chemistryChemical engineeringChemistryRedoxPhosphoric acidMaterials scienceNanotechnologyHydrogenElectrodeOrganic chemistryPhysical chemistryEngineeringSupercapacitor Materials and FabricationAdvancements in Battery MaterialsAdvanced Battery Materials and Technologies
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