Low temperature electrochemical deposition of highly active elements

•Thick Al coatings electrodeposited from ionic liquids in a manufacturing environment.•Continuous Si, Ta and Nb coatings electrodeposited from ionic liquids.•Additives to organic Al electrodeposition baths can suppress impurity incorporation.•Ge and Si electrodeposition by an electrochemical liquid−...

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Bibliographic Details
Published in:Current opinion in solid state & materials science 2015-04, Vol.19 (2), p.77-84
Main Authors: Falola, Bamidele D., Suni, Ian I.
Format: Article
Language:English
Subjects:
Aluminum
Coatings
Deposition
Electrodeposition
Electroless deposition
Galvanic deposition
High strength steels
Ionic liquids
Organic electrolytes
Silicon substrates
Solvents
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Summary:•Thick Al coatings electrodeposited from ionic liquids in a manufacturing environment.•Continuous Si, Ta and Nb coatings electrodeposited from ionic liquids.•Additives to organic Al electrodeposition baths can suppress impurity incorporation.•Ge and Si electrodeposition by an electrochemical liquid−liquid−solid process.•Galvanic deposition of Ti, Mo and Si coatings onto Al alloys recently reported. Electrochemical methods are attractive for thin film deposition due to their simplicity, conformal and high rate deposition, the ability to easily make multilayers of different composition, ease of scale-up to large surface areas, and applicability to wide variety of different shapes and surface geometries. However, many elements from periodic table of commercial importance are too active to be electrodeposited from aqueous solution. Recent advances are briefly reviewed for room temperature methods for electrochemical deposition, including electrodeposition from ionic liquids, electrodeposition from organic solvents, combined electrodeposition and precipitation on liquid metal cathodes, and galvanic deposition. Recent studies of electrodeposition from ionic liquids include deposition of thick (40μm) Al coatings on high-strength steel screws in a manufacturing environment; deposition of continuous Si, Ta and Nb coatings; and numerous interesting mechanistic studies. Recent studies of electrodeposition from organic solvents include Al coatings from the AlCl3–dimethylsulfone electrolyte, which demonstrate that additives can be employed to suppress impurity incorporation and to improve the deposit quality, and thick (5–7μm) and continuous Si coatings from SiCl4 in acetonitrile. Galvanic deposition of Ti, Mo and Si coatings onto Al alloys has recently been reported, which is potentially much simpler and less expensive than electrodeposition from ionic liquids and organic solvents, but has complications associated with substrate consumption and coating adhesion.
ISSN:1359-0286
DOI:10.1016/j.cossms.2014.11.006