Effect of oxidative surface treatments on charge storage at titanium nitride surfaces for supercapacitor applications

Gray, Benjamin M.; Hector, Andrew L.; Jura, Marek; Owen, John R.; Whittam, Joshua

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Royal Society of Chemistry, Journal of Materials Chemistry A: materials for energy and sustainability, 9(5), p. 4550-4559, 2017

DOI: 10.1039/c6ta08308k

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Effect of oxidative surface treatments on charge storage at titanium nitride surfaces for supercapacitor applications

Journal article published in 2017 by Benjamin M. Gray, Andrew L. Hector

, Marek Jura, John R. Owen, Joshua Whittam

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Abstract

The effects of surface oxidation on the capacitance of titanium nitride electrode surfaces, produced by reaction of titanium foils with ammonia, are examined. Thermal oxidation and electrochemical oxidation both increase the amount of redox active oxide at the surface, but electrochemical oxidation is found to be more successful in increasing the capacitance.

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Effect of oxidative surface treatments on charge storage at titanium nitride surfaces for supercapacitor applications

Abstract