Improving the Performance of Lead Anodes in the Electrowinning of Copper. The aim of this project is the development of a fundamental understanding of the role of certain metal ions such as cobalt and manganese in modifying the electrochemical and corrosion performance of lead alloy materials used as anodes in the electrowinning of base metals such as copper, zinc and nickel.
The development of improved anodes will be of major benefit to the industry in terms of anode cost and particularly ener ....Improving the Performance of Lead Anodes in the Electrowinning of Copper. The aim of this project is the development of a fundamental understanding of the role of certain metal ions such as cobalt and manganese in modifying the electrochemical and corrosion performance of lead alloy materials used as anodes in the electrowinning of base metals such as copper, zinc and nickel.
The development of improved anodes will be of major benefit to the industry in terms of anode cost and particularly energy consumption. This project will lead to a better understanding of the performance of these anodes and could result in the design of improved anode materials and/or operating strategies.Read moreRead less
Understanding dynamic interfaces in electrochemical systems. This project aims to develop nanoscale characterisation methods to understand dynamic processes in zinc-ion batteries and high temperature electrolysis systems under real working (in operando) conditions. This project expects to reveal critical solid-liquid and solid-gas interfacial processes in these two distinctly different electrochemical systems. The expected outcomes include improved understanding of electrochemical interfaces and ....Understanding dynamic interfaces in electrochemical systems. This project aims to develop nanoscale characterisation methods to understand dynamic processes in zinc-ion batteries and high temperature electrolysis systems under real working (in operando) conditions. This project expects to reveal critical solid-liquid and solid-gas interfacial processes in these two distinctly different electrochemical systems. The expected outcomes include improved understanding of electrochemical interfaces and improved tools and methods to observe nanoscale interfacial processes. This information can be used to underpin mechanistic models, which will facilitate new materials design. Read moreRead less
Electrolytic Recovery of Titanium and Direct Deposition of Fe-Ti Alloys using Novel Electrolytes. The use of novel electrolytes based on ionic liquids will be investigated with a view to developing efficient means of titanium (Ti) recovery and purification. The nature of the electrolyte used as well as the electrode substrate and the electrochemical parameters will be optimised with a view to achieving Ti deposits of high purity or Fe-Ti alloys of controlled composition. The effect of these pa ....Electrolytic Recovery of Titanium and Direct Deposition of Fe-Ti Alloys using Novel Electrolytes. The use of novel electrolytes based on ionic liquids will be investigated with a view to developing efficient means of titanium (Ti) recovery and purification. The nature of the electrolyte used as well as the electrode substrate and the electrochemical parameters will be optimised with a view to achieving Ti deposits of high purity or Fe-Ti alloys of controlled composition. The effect of these parameters on the morphology of the deposits obtained will be determined. The products obtained here are expected to find application in construction industries and for energy storage.Read moreRead less
Development and Use of Ionic Liquids in Metal Recovery from Ores, Concentrates and Mattes. Ionic liquids, which are liquid over a wide temperature range and can dissolve a wide range of solutes to high concentrations, promise new and yet unexplored approaches in processing ores. We aim to prepare ionic liquids and apply these to increase the intensity of copper and gold sulfide processing, and to explore more efficient separation of platinum group metals from mattes. New oxidative leaching techn ....Development and Use of Ionic Liquids in Metal Recovery from Ores, Concentrates and Mattes. Ionic liquids, which are liquid over a wide temperature range and can dissolve a wide range of solutes to high concentrations, promise new and yet unexplored approaches in processing ores. We aim to prepare ionic liquids and apply these to increase the intensity of copper and gold sulfide processing, and to explore more efficient separation of platinum group metals from mattes. New oxidative leaching techniques will be developed to diminish ore passivation and enhance recovery; high current electrowinning of copper in ionic liquids will be probed. Evolving technology should yield economic and environmental benefits for a nationally important industry.Read moreRead less