O. Di Blasi scite author profile

Several graphite-based electrodes are investigated for vanadium flow battery applications. These materials are characterized both as-received and after chemical or electrochemical treatments in order to vary the content of oxygen functional groups on the electrode surface. The surface properties of the samples are investigated by X-ray photoelectron spectroscopy. Electrochemical performance is evaluated by cyclic voltammetry and electrochemical impedance spectroscopy measurements in a three electrode half-cell. The chemical treatment with HNO 3 causes a cleaning of the electrode surface from adsorbed oxygen species or labile bonded functional groups in highly graphitic samples. Whereas, carbonaceous materials characterized by smaller graphitic domains or a higher degree of amorphous carbon show an increase of oxygen functional groups upon chemical and electrochemical pre-treatments. In both cases, an increase of oxygen species content on the surface above 5 % causes a decrease of electrochemical performance for the redox battery determined by an increase of ohmic and charge transfer resistance.

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Electrochemical investigation of thermically treated graphene oxides as electrode materials for vanadium redox flow battery

Blasi

Briguglio

Busacca

et al. 2015

Applied Energy

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A combination of CoO and Co nanoparticles supported on electrospun carbon nanofibers as highly stable air electrodes

Alegre

Busacca

Blasi

et al. 2017

Journal of Power Sources

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O. Di Blasi

Catalytic etherification of glycerol by tert-butyl alcohol to produce oxygenated additives for diesel fuel

Steam reforming of bio-ethanol on alkali-doped Ni/MgO catalysts: hydrogen production for MC fuel cell

Investigation of several graphite-based electrodes for vanadium redox flow cell

Electrochemical investigation of thermically treated graphene oxides as electrode materials for vanadium redox flow battery

A combination of CoO and Co nanoparticles supported on electrospun carbon nanofibers as highly stable air electrodes

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