Extraction of gold from thiosulfate leach liquors using selective magnetic ion exchange (MIEX) resins. Cyanide processes used for gold leaching can cause severe environmental problems. This proposal studies the use of thiosulfate as an alternative, concentrating on the design and synthesis of new functionalised magnetic ion-exchange resins, which will act as selective adsorbents for the gold thiosulfate complex and thereby facilitate the implementation of this efficient, low environmental impact ....Extraction of gold from thiosulfate leach liquors using selective magnetic ion exchange (MIEX) resins. Cyanide processes used for gold leaching can cause severe environmental problems. This proposal studies the use of thiosulfate as an alternative, concentrating on the design and synthesis of new functionalised magnetic ion-exchange resins, which will act as selective adsorbents for the gold thiosulfate complex and thereby facilitate the implementation of this efficient, low environmental impact process. Since the leaching is typically applied to ores rich in copper, resins for the recovery of copper will also be designed. Laboratory proving trials will be conducted and successful candidates will be considered for future commercialisation of a Resin-in-Pulp leaching and recovery process.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
Non-urban water regulation: next generation compliance & enforcement . This project aims to develop the next generation of regulatory technology in non-urban water compliance and enforcement. Effective technologies are needed to make government regulation more efficient, reduce regulatory burdens and improve compliance with complex laws. This project delivers new ways to optimise regulatory technologies that drive innovation, reduce costs and enhance sustainable water use. Expected outcomes incl ....Non-urban water regulation: next generation compliance & enforcement . This project aims to develop the next generation of regulatory technology in non-urban water compliance and enforcement. Effective technologies are needed to make government regulation more efficient, reduce regulatory burdens and improve compliance with complex laws. This project delivers new ways to optimise regulatory technologies that drive innovation, reduce costs and enhance sustainable water use. Expected outcomes include regulatory guidance strategies and training, advances in applied regulatory theory, and innovative technology tools capturing the complexity of water regulation and supporting decision-making. This will provide public resource savings and ensure fairness and effectiveness of water compliance and enforcement.Read moreRead less
Improving Energy Efficiency through Cool Polymers in Building Materials. The advantages of using cool polymers in industrial applications such as building materials are significant. Cooler buildings are a positive contribution to our global environment with reductions in urban heat and smog through energy efficiency. Moreover, by reducing the overall temperature of the surface coating through inclusion and optimization of IR-reflective pigments, this should lead to polymers which are more durabl ....Improving Energy Efficiency through Cool Polymers in Building Materials. The advantages of using cool polymers in industrial applications such as building materials are significant. Cooler buildings are a positive contribution to our global environment with reductions in urban heat and smog through energy efficiency. Moreover, by reducing the overall temperature of the surface coating through inclusion and optimization of IR-reflective pigments, this should lead to polymers which are more durable when exposed in exterior environments. It is anticipated that the results from this work will have direct impact on the Australian paint market and potentially the commercial and residential building industries of Australia, combined with obvious economic benefits.Read moreRead less
Performance Chemistry of Thermoset Surface Coatings. Surface coatings employed in the COLORBOND® range of pre-painted steel products are remarkable materials that are warranted against fading, peeling and cracking for 25 years. Unfortunately, the desired durability can never be uniform across all applications and performance failures do occur and are costly. Classic durability testing often provides misleading information. This project aims to develop a sound mechanistic model for polyester-is ....Performance Chemistry of Thermoset Surface Coatings. Surface coatings employed in the COLORBOND® range of pre-painted steel products are remarkable materials that are warranted against fading, peeling and cracking for 25 years. Unfortunately, the desired durability can never be uniform across all applications and performance failures do occur and are costly. Classic durability testing often provides misleading information. This project aims to develop a sound mechanistic model for polyester-isocyanate performance chemistry and to develop strategies for 'superdurable polyester' formulations based on these findings. This research will provide recommendations to BHP Coated Steel Australia on adoption of isocyanate based technology in the COLORBOND® range of products.Read moreRead less
AI Assisted Continuous Flow Electrochemistry for Pharmaceutical Manufacture. This project aims to develop new chemical manufacturing processes for pharmaceutical products. In collaboration with Sun Pharma, it will tackle the challenge of replacing expensive and toxic chemicals in industrial reactions, to lower cost of manufacturing and improve its sustainability profile. Central to the realisation of this ambition is the use of electrocatalysis, machine learning and implementation of advanced co ....AI Assisted Continuous Flow Electrochemistry for Pharmaceutical Manufacture. This project aims to develop new chemical manufacturing processes for pharmaceutical products. In collaboration with Sun Pharma, it will tackle the challenge of replacing expensive and toxic chemicals in industrial reactions, to lower cost of manufacturing and improve its sustainability profile. Central to the realisation of this ambition is the use of electrocatalysis, machine learning and implementation of advanced continuous flow methods. These electricity- and technology-driven reactions will develop new strategies for the generation of important classes of molecules relevant to the Australia’s pharmaceutical sector, as well as their manufacture at industrially relevant scales.Read moreRead less
Development of a molecular flash memory for long-term, extremely high-capacity, unpowered data storage. This collaborative project with INTEL will demonstrate an array of Flash-RAM molecular-memory cells capable, at room temperature, of storing a terabit of data on an area of 2 square mm. This data density is more than four orders of magnitude greater than any commercially available technology and unattainable by conventional silicon-based electronics. We will design and optimize the memory cel ....Development of a molecular flash memory for long-term, extremely high-capacity, unpowered data storage. This collaborative project with INTEL will demonstrate an array of Flash-RAM molecular-memory cells capable, at room temperature, of storing a terabit of data on an area of 2 square mm. This data density is more than four orders of magnitude greater than any commercially available technology and unattainable by conventional silicon-based electronics. We will design and optimize the memory cell, develop the synthesis method, synthesize arrays of the memory cells, and develop new molecular addressing technologies.Read moreRead less
The development of lead-free silicon brass for the plumbing industry. The worldwide brass industry is currently undergoing a transition away from lead-containing brass water fittings to lead-free fittings. The transition is driven by concerns surrounding lead-leaching into drinking water. This project is focussed on the development of new lead-free brasses that can be used to manufacture plumbing fittings with superior combinations of processability, performance and cost.
Synthesis and Production of High Value Pyridines Combining the Concepts of Alternative Reaction Media and Process Intensification. This project aims to develop novel syntheses and process route for substituted pyridines by bringing together expertise in the fields of green chemistry and process intensification. Minimisation of waste, energy efficiency, and improved selectivity and control will be the key process and chemistry targets, which will produce high value compounds. Traditional approach ....Synthesis and Production of High Value Pyridines Combining the Concepts of Alternative Reaction Media and Process Intensification. This project aims to develop novel syntheses and process route for substituted pyridines by bringing together expertise in the fields of green chemistry and process intensification. Minimisation of waste, energy efficiency, and improved selectivity and control will be the key process and chemistry targets, which will produce high value compounds. Traditional approaches use organic solvents and preformed salts which are costly, generate waste and the processes are energy intensive due to poor selectivity, low yield and extensive separation steps. This is a generic investigation which will have wide ranging applications in the pharmaceutical, energy and advanced electronic industries.Read moreRead less
Application of process intensification on rotating surfaces (PIRS) in organic synthesis. Process intensification technologies in the form of SDP and RTP are new to Australia and present many opportunities for carrying out the synthesis of organic compounds. They have remarkable versatility in being able to control chemical reactions with greater selectivity than using classical batch technology, at the same time allowing access to new compounds. Moreover, the technologies embrace the principles ....Application of process intensification on rotating surfaces (PIRS) in organic synthesis. Process intensification technologies in the form of SDP and RTP are new to Australia and present many opportunities for carrying out the synthesis of organic compounds. They have remarkable versatility in being able to control chemical reactions with greater selectivity than using classical batch technology, at the same time allowing access to new compounds. Moreover, the technologies embrace the principles of green chemistry in minimising the generation of waste, while operating under continuous flow which is destined to be more attractive to industry. This is likely in the fine chemicals sector, and in drug discovery. The project will provide first-rate research training and promote Australian science. Read moreRead less