Tin, bismuth, and tin–bismuth alloy electrodeposition from chlorometalate salts in deep eutectic solvents
Tin, bismuth, and tin–bismuth alloy electrodeposition from chlorometalate salts in deep eutectic solvents
The electrodeposition of tin, bismuth, and tin–bismuth alloys from SnII and BiIII chlorometalate salts in the choline chloride/ethylene glycol (1:2 molar ratio) deep eutectic solvent was studied on glassy carbon and gold by cyclic voltammetry, rotating disc voltammetry, and chronoamperometry. The SnII-containing electrolyte showed one voltammetric redox process corresponding to SnII/Sn0. The diffusion coefficient of [SnCl3]−, detected as the dominating species by Raman spectroscopy, was determined from Levich and Cottrell analyses. The BiIII-containing electrolyte showed two voltammetric reduction processes, both attributed to BiIII/Bi0. Dimensionless current/time transients revealed that the electrodeposition of both Sn and Bi on glassy carbon proceeded by 3D-progressive nucleation at a low overpotential and changed to instantaneous at higher overpotentials. The nucleation rate of Bi on glassy carbon was considerably smaller than that of Sn. Elemental Sn and Bi were electrodeposited on Au-coated glass slides from their respective salt solutions, as were Sn–Bi alloys from a 2:1 SnII/BiIII solution. The biphasic Sn–Bi alloys changed from a Bi-rich composition to a Sn-rich composition by making the deposition potential more negative.
Vieira, Luciana
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Burt, Jennifer
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Richardson, Peter W.
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Schloffer, Daniel
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Fuchs, David
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Moser, Alwin
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Reid, Gillian
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Bartlett, Philip N.
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Gollas, Bernhard
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Vieira, Luciana
8f9a87d8-81b5-429a-a52e-71964c99f649
Burt, Jennifer
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Richardson, Peter W.
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Schloffer, Daniel
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Fuchs, David
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Moser, Alwin
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Reid, Gillian
37d35b11-40ce-48c5-a68e-f6ce04cd4037
Bartlett, Philip N.
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Gollas, Bernhard
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Vieira, Luciana, Burt, Jennifer, Richardson, Peter W., Schloffer, Daniel, Fuchs, David, Moser, Alwin, Reid, Gillian, Bartlett, Philip N. and Gollas, Bernhard
(2017)
Tin, bismuth, and tin–bismuth alloy electrodeposition from chlorometalate salts in deep eutectic solvents.
ChemistryOpen.
(doi:10.1002/open.201700045).
Abstract
The electrodeposition of tin, bismuth, and tin–bismuth alloys from SnII and BiIII chlorometalate salts in the choline chloride/ethylene glycol (1:2 molar ratio) deep eutectic solvent was studied on glassy carbon and gold by cyclic voltammetry, rotating disc voltammetry, and chronoamperometry. The SnII-containing electrolyte showed one voltammetric redox process corresponding to SnII/Sn0. The diffusion coefficient of [SnCl3]−, detected as the dominating species by Raman spectroscopy, was determined from Levich and Cottrell analyses. The BiIII-containing electrolyte showed two voltammetric reduction processes, both attributed to BiIII/Bi0. Dimensionless current/time transients revealed that the electrodeposition of both Sn and Bi on glassy carbon proceeded by 3D-progressive nucleation at a low overpotential and changed to instantaneous at higher overpotentials. The nucleation rate of Bi on glassy carbon was considerably smaller than that of Sn. Elemental Sn and Bi were electrodeposited on Au-coated glass slides from their respective salt solutions, as were Sn–Bi alloys from a 2:1 SnII/BiIII solution. The biphasic Sn–Bi alloys changed from a Bi-rich composition to a Sn-rich composition by making the deposition potential more negative.
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Vieira_et_al-2017-ChemistryOpen
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Accepted/In Press date: 5 March 2017
e-pub ahead of print date: 13 April 2017
Organisations:
Electrochemistry, FIMS
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Local EPrints ID: 411114
URI: http://eprints.soton.ac.uk/id/eprint/411114
PURE UUID: ee763c72-61df-4ec5-b5bb-f3ee04fffa7e
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Date deposited: 14 Jun 2017 16:31
Last modified: 16 Mar 2024 02:44
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Author:
Luciana Vieira
Author:
Jennifer Burt
Author:
Peter W. Richardson
Author:
Daniel Schloffer
Author:
David Fuchs
Author:
Alwin Moser
Author:
Bernhard Gollas
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