Improved, high conductivity titanium sub-oxide coated electrodes obtained by Atmospheric Plasma Spray
Improved, high conductivity titanium sub-oxide coated electrodes obtained by Atmospheric Plasma Spray
Coatings based on reduced stoichiometries of titanium dioxide obtained by Atmospheric Plasma Spray are presented for their application as electrodes in devices such as lead acid batteries, redox flow batteries and electrochemical reactors. A study of their microstructure, composition and mechanical properties is first presented in this paper to show that the layers are compact, free of cracking and well adhered to the substrate. The presence of Magneli phase oxides, particularly Ti8O15 was identified in the coatings, which enhances their electrical conductivity. In order to understand the behaviour of this material as an electrode, an electrochemical analysis of the coatings was also done. The coated samples showed higher oxygen and hydrogen evolution overpotentials and lower electrochemical corrosion compared to typically used commercial stainless steel and carbon polymer composite electrodes.
Author Keywords:Electrodes; Bipolar batteries; Redox flow batteries; Thermal spray; Titanium sub-oxides; Coatings
Gardon, M.
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Dosta, S.
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Guilemany, J.M.
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Kourasi, M.
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Mellor, B.
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Wills, Richard
60b7c98f-eced-4b11-aad9-fd2484e26c2c
20 April 2013
Gardon, M.
7c5f306b-96fe-429f-9ee1-bae694380c9e
Dosta, S.
f8d8cd0a-e91e-4b17-9347-48c1e1ce69c4
Guilemany, J.M.
61efea12-3da8-4ef1-b025-2187455b58c0
Kourasi, M.
d4b0deec-138e-457a-a893-b2f5f5c5f727
Mellor, B.
f3714832-3a65-4041-adb5-a9cebf3bacfc
Wills, Richard
60b7c98f-eced-4b11-aad9-fd2484e26c2c
Gardon, M., Dosta, S., Guilemany, J.M., Kourasi, M., Mellor, B. and Wills, Richard
(2013)
Improved, high conductivity titanium sub-oxide coated electrodes obtained by Atmospheric Plasma Spray.
Journal of Power Sources.
(doi:10.1016/j.jpowsour.2013.04.078).
Abstract
Coatings based on reduced stoichiometries of titanium dioxide obtained by Atmospheric Plasma Spray are presented for their application as electrodes in devices such as lead acid batteries, redox flow batteries and electrochemical reactors. A study of their microstructure, composition and mechanical properties is first presented in this paper to show that the layers are compact, free of cracking and well adhered to the substrate. The presence of Magneli phase oxides, particularly Ti8O15 was identified in the coatings, which enhances their electrical conductivity. In order to understand the behaviour of this material as an electrode, an electrochemical analysis of the coatings was also done. The coated samples showed higher oxygen and hydrogen evolution overpotentials and lower electrochemical corrosion compared to typically used commercial stainless steel and carbon polymer composite electrodes.
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Published date: 20 April 2013
Keywords:
Author Keywords:Electrodes; Bipolar batteries; Redox flow batteries; Thermal spray; Titanium sub-oxides; Coatings
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Local EPrints ID: 414191
URI: http://eprints.soton.ac.uk/id/eprint/414191
PURE UUID: bd0078e3-7dad-4a5b-8284-3ec9171badd4
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Date deposited: 18 Sep 2017 16:31
Last modified: 16 Mar 2024 03:34
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Contributors
Author:
M. Gardon
Author:
S. Dosta
Author:
J.M. Guilemany
Author:
M. Kourasi
Author:
B. Mellor
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