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
Designer Nanoreactors: An Environmentally Friendly Solution for Polymer Synthesis. The advanced materials made from the designer nanoreactors developed in this project will be high value-added products made from cheap materials with much greater design capacity for a wide range of applications. The knowledge gained from this project will have potential applications in many areas where polymer materials are used, including high strength coatings, conducting coatings for the electronic industry, ....Designer Nanoreactors: An Environmentally Friendly Solution for Polymer Synthesis. The advanced materials made from the designer nanoreactors developed in this project will be high value-added products made from cheap materials with much greater design capacity for a wide range of applications. The knowledge gained from this project will have potential applications in many areas where polymer materials are used, including high strength coatings, conducting coatings for the electronic industry, degradable drug and vaccine nanodelivery devices, tissue scaffolds, and gene delivery. These polymers will provide Australian Industry with advanced features and capabilities, significantly improving product performance.Read moreRead less
Transformer 3D Nanostructures: Stimuli Responsive Polymers. This research program will develop smart nanostructures that will be capable of producing high value added products using cheap polymer materials but achieving a much greater design capacity for end-use functions. The knowledge gained from this project will have potential applications in many areas where nanomaterials and polymers are used, including high strength coatings, conducting coatings for the electronic industry, drug and vacci ....Transformer 3D Nanostructures: Stimuli Responsive Polymers. This research program will develop smart nanostructures that will be capable of producing high value added products using cheap polymer materials but achieving a much greater design capacity for end-use functions. The knowledge gained from this project will have potential applications in many areas where nanomaterials and polymers are used, including high strength coatings, conducting coatings for the electronic industry, drug and vaccine delivery devices, tissue scaffolds, nanosensors, and gene delivery. These polymer techniques will enable Australian Industry to significantly improve product performance by providing advanced features and capabilities previously unavailable.Read moreRead less