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| Naji, M. |
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| Motta, Antonella |
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| Ertürk, Emre |
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| Taccardi, Nicola |
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| Azam, Siraj |
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| Rančić, M. |
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| Azevedo, Nuno Monteiro |
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Bond, Alan
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- 2021CdS-Enhanced Ethanol Selectivity in Electrocatalytic CO2 Reduction at Sulfide-Derived Cu-Cdcitations
- 2019Electrocatalytic CO2 reduction to formate on Cu based surface alloys with enhanced selectivitycitations
- 2016Efficient enzymatic oxidation of glucose mediated by ferrocene covalently attached to polyethylenimine stabilized gold nanoparticlescitations
- 2016EPR spectroscopic characterization of a monomeric PtIII species produced via electrochemical oxidation of the anticancer compound trans-[PtII{(p-HC6F4)NCH2CH2NEt2}Cl(py)]citations
- 2011Anion dependent redox changes in iron bis-terdentate nitroxide {NNO} chelatescitations
- 2011Aluminium coordination chemistry in ionic liquid/AlCl3 mixtures
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document
Aluminium coordination chemistry in ionic liquid/AlCl3 mixtures
Abstract
Aluminium production by the high temperature (~960 °C) Hall-Heroult process is a major contributor to Australia’s economy and accounts for approximately 15% of Australia’s electricity consumption. With the advent of air, water and electrochemically stable low temperature molten salts (Ionic Liquids) an opportunity presented itself whereby aluminium could be electrodeposited via a less energy intensive lower temperatures (<100 °C) process. The feasibility of reducing aluminium chloride (AlCl3) to aluminium metal has recently been demonstrated from several ionic liquids, all of which contain the bis(trifluoromethylsulfonyl)imide (NTf2) anion.1The success of the electrodeposition is largely dependant on the composition of the ionic liquid, in particular the coordination ability of the anion, as concentration dependent complex equilibria are established between the added AlCl3 and newly generated aluminium species containing the [NTf2]- anion. We have investigated the complex chemistry of the [QA][NTf2]/AlCl3 system by 27Al-NMR, Raman spectroscopy and quantum chemical calculations. A range of aluminium complexes were identified such as [AlCl4]-, [Al(NTf2)3] and [AlCl3(NTf2)]-.2,3 Correlation of these data to electro-deposition data indicated that the electroactive species is likely to be 4-coordinated [AlCl3(NTf2)]-.