Optimization of the electrodeposition of Raney nickel on titanium substrate

Matthew Cooper; Gerardine G. Botte

doi:10.1007/s10853-006-0317-z

Optimization of the electrodeposition of Raney nickel on titanium substrate

Matthew Cooper, Gerardine G. Botte

Chemical Engineering

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9 Scopus citations

Abstract

The electrodeposition of Raney nickel onto a titanium grid substrate was investigated. Optimization of current density and charge density was performed via a factorial design experimental method to maximize the percentage of Raney nickel powder deposited on the grid. A scale-up of the deposition process was performed to demonstrate the feasibility of the procedure using larger substrates. Reproducible electrodes were obtained which can find applications in fuel cells as well as electrolytic hydrogen generators.

Original language	English
Pages (from-to)	5608-5612
Number of pages	5
Journal	Journal of Materials Science
Volume	41
Issue number	17
DOIs	https://doi.org/10.1007/s10853-006-0317-z
State	Published - Sep 2006

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abstract = "The electrodeposition of Raney nickel onto a titanium grid substrate was investigated. Optimization of current density and charge density was performed via a factorial design experimental method to maximize the percentage of Raney nickel powder deposited on the grid. A scale-up of the deposition process was performed to demonstrate the feasibility of the procedure using larger substrates. Reproducible electrodes were obtained which can find applications in fuel cells as well as electrolytic hydrogen generators.",

author = "Matthew Cooper and Botte, {Gerardine G.}",

note = "Funding Information: Acknowledgements The authors would like to acknowledge financial support from Ohio University: the Office of the Vice-President for Research, the Ohio University Foundation, the Department of Chemical Engineering, and the Stocker Research Fellowship.",

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N2 - The electrodeposition of Raney nickel onto a titanium grid substrate was investigated. Optimization of current density and charge density was performed via a factorial design experimental method to maximize the percentage of Raney nickel powder deposited on the grid. A scale-up of the deposition process was performed to demonstrate the feasibility of the procedure using larger substrates. Reproducible electrodes were obtained which can find applications in fuel cells as well as electrolytic hydrogen generators.

AB - The electrodeposition of Raney nickel onto a titanium grid substrate was investigated. Optimization of current density and charge density was performed via a factorial design experimental method to maximize the percentage of Raney nickel powder deposited on the grid. A scale-up of the deposition process was performed to demonstrate the feasibility of the procedure using larger substrates. Reproducible electrodes were obtained which can find applications in fuel cells as well as electrolytic hydrogen generators.

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Optimization of the electrodeposition of Raney nickel on titanium substrate

Abstract

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