Development of next-generation nanoengineered advanced materials for targeted applications. This proposal seeks to develop and use a novel next-generation nanoscale fabrication technique to assemble technologically advanced materials not accessible via current fabrication strategies. The resulting materials are expected to find application in water purification, pharmaceutical development and drug delivery.
Supercritical CO2: A Clean, Green Reaction Medium for Novel Polymer Synthesis and Modification. This project will lead to the development of new macromolecular structures with application in many areas ranging from drug delivery to the microelectronics industry. More importantly, the processes used to manufacture these products will utilise supercritical CO2 - a clean, green processing technology that can totally remove the need for using environmentally-degrading, volatile organic solvents. The ....Supercritical CO2: A Clean, Green Reaction Medium for Novel Polymer Synthesis and Modification. This project will lead to the development of new macromolecular structures with application in many areas ranging from drug delivery to the microelectronics industry. More importantly, the processes used to manufacture these products will utilise supercritical CO2 - a clean, green processing technology that can totally remove the need for using environmentally-degrading, volatile organic solvents. The unique properties of scCO2 will be used to develop new polymer materials and processes. This technology will promote Australia's commitment towards greener industrial alternatives, while simultaneously strengthening our science and opening up new possibilities in the rapidly advancing area of nano-technology. Read moreRead less
Tailoring metal-organic framework catalysts for carbon dioxide conversion. Reducing the greenhouse gas, CO2, into valuable fuels would be beneficial for relieving energy shortage and improving global sustainability. This project aims to synthesise high-performance heterogeneous catalysts for CO2 conversion by periodic ordering photo-redox metalloligand and thermal-catalytically active metal oxide clusters in metal-organic frameworks (MOFs). This approach is expected to deliver a unique single-si ....Tailoring metal-organic framework catalysts for carbon dioxide conversion. Reducing the greenhouse gas, CO2, into valuable fuels would be beneficial for relieving energy shortage and improving global sustainability. This project aims to synthesise high-performance heterogeneous catalysts for CO2 conversion by periodic ordering photo-redox metalloligand and thermal-catalytically active metal oxide clusters in metal-organic frameworks (MOFs). This approach is expected to deliver a unique single-site metal-organic framework catalyst with high reaction-activity and chemo-selectivity in converting CO2 into valuable chemicals. This advancement will provide significant benefits for Australia’s emerging chemical manufacturing industry, and ultimately leading to a carbon-neutral energy economy and environment.Read moreRead less
Heterogeneous hydrophilic catalysts for green oxidation in bio-refining. The project aims to address one significant global challenge of developing green processes for producing high value chemicals from biomass, to enhance the environmental performance and cost-efficiency of bio-refining. This project aims to develop a new class of heterogeneous nanocatalysts with hydrophilic Co (salen) complexes for biomass oxidation in water rather than toxic solvent. This project will use this to devise prac ....Heterogeneous hydrophilic catalysts for green oxidation in bio-refining. The project aims to address one significant global challenge of developing green processes for producing high value chemicals from biomass, to enhance the environmental performance and cost-efficiency of bio-refining. This project aims to develop a new class of heterogeneous nanocatalysts with hydrophilic Co (salen) complexes for biomass oxidation in water rather than toxic solvent. This project will use this to devise practical routes for the production of targeted industrial components for flavours, fragrances, fine chemicals, and petrochemicals. The development of heterogeneous hydrophilic catalysts by which they will oxidise hydrophilic biomasses in a continuous flow system will dramatically improve the sustainability of the chemical industry.Read moreRead less
Electrowetting as a tool for measuring the surface energy of solids. Ionic liquids can be forced to spread over hydrophobic surfaces by applying an electric field, thus overwriting their natural tendency to bead. This phenomenon, called electrowetting, can be used to manipulate liquids but also to determine the surface energy of the solid surface which is a key design parameter in many applications.