Electrochemical studies of gold and chloride in ionic liquids

Aldous, L.; Silvester, Debbie; Villagran, C.; Pitner, W.; Compton, R.; Lagunas, M.; Hardacre, C.

doi:10.1039/b609261f

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Authors

Aldous, L.

Silvester, Debbie

Villagran, C.

Pitner, W.

Compton, R.

Lagunas, M.

Hardacre, C.

Date

2006

Type

Journal Article

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Citation

Aldous, L. and Silvester, D. and Villagran, C. and Pitner, W. and Compton, R. and Lagunas, M. and Hardacre, C. 2006. Electrochemical studies of gold and chloride in ionic liquids. New Journal of Chemistry. 30: pp. 1576-1583.

Source Title

New Journal of Chemistry

Abstract

For the first time, the electrochemistry of gold has been studied in detail in a ‘second-generation’, non-haloaluminate, ionic liquid. In particular, the electrochemical behaviour of Na[AuCl4] has been investigated in 1-butyl-3-methylimidazolium bis{(tifluoromethyl)sulfonyl}imide, [C4mim][NTf2], over gold, platinum and glassy carbon working electrodes. The reduction of [AuCl4] initially forms [AuCl2] before deposition on the electrode as Au(0). To enable stripping of deposited gold or electrodissolution of bulk gold, the presence of chloride, trichloride or chlorine is required. Specifically trichloride and chlorine have been identified as the active species which preferentially form Au(I) and Au(III), respectively.