M. Hughes scite author profile

Carbons have been produced through the electrolytic reduction of molten alkali metal carbonate salts under a range of conditions. The resultant carbons consist of both graphitized and amorphous phases. The carbon surface has also been shown to be heavily functionalized with oxygen containing groups. Their charge storage capabilities as electrochemical capacitor materials have been investigated using cyclic voltammetry and step potential electrochemical spectroscopy (SPECS). Trends in carbon performance with electrodeposition conditions have been identified, and carbons with a specific capacitance as high as 375 F.g −1 have been obtained at scan rates of 10 mV.s −1 . With respect to temperature of carbon deposition, carbon electrodeposited at 500 • C has been identified as the best electrical double layer capacitor type material, and as a superior material for pseudocapacitive applications. The performance of a control activated carbon has been compared with the electrodeposited carbons, and it has been shown that, when electrodeposited at low current densities, the resultant carbon performance is superior to the activated carbon.

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The properties and performance of carbon produced through the electrochemical reduction of molten carbonate: A study based on step potential electrochemical spectroscopy

Hughes

Allen

Donne

2018

Electrochimica Acta

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Carbonate Reduction and the Properties and Applications of Carbon Formed Through Electrochemical Deposition in Molten Carbonates: A Review

Hughes

Allen

Donne

2015

Electrochimica Acta

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A review of cells based on lithium negative electrodes (anodes)

Hughes

Hampson

Karunathilaka

1984

Journal of Power Sources

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The prediction of the state-of-charge of some commercial primary cells

et al. 1983

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M. Hughes

The Properties of Carbons Derived through the Electrolytic Reduction of Molten Carbonates under Varied Conditions: Part I. A Study Based on Step Potential Electrochemical Spectroscopy

The properties and performance of carbon produced through the electrochemical reduction of molten carbonate: A study based on step potential electrochemical spectroscopy

Carbonate Reduction and the Properties and Applications of Carbon Formed Through Electrochemical Deposition in Molten Carbonates: A Review

A review of cells based on lithium negative electrodes (anodes)

The prediction of the state-of-charge of some commercial primary cells

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