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
Vesicles stabilised by compressed carbon dioxide as nanoreactors and templates for radical polymerisation. A new environmentally friendly method for synthesis of surfactant vesicles involving stabilisation using low pressure carbon dioxide will be applied to the synthesis of hollow polymeric nanoparticles and polymer of well-defined structure. The resulting polymeric structures will have applications in drug delivery and nano-engineered materials.
Development of Fire Retardant Thermal Insulation Materials for Buildings. This Fellowship proposal aims to develop next-generation fire-retardant rigid polymer foams (RPF)-based thermal insulation materials for buildings. Through investigating fire-retardancy, mechanical and ageing properties, we will fundamentally understand the structure/composition - performance relationships of as-designed nanostructured fire-retardant polymer coatings and will achieve robust, durable and fire-retardant coat ....Development of Fire Retardant Thermal Insulation Materials for Buildings. This Fellowship proposal aims to develop next-generation fire-retardant rigid polymer foams (RPF)-based thermal insulation materials for buildings. Through investigating fire-retardancy, mechanical and ageing properties, we will fundamentally understand the structure/composition - performance relationships of as-designed nanostructured fire-retardant polymer coatings and will achieve robust, durable and fire-retardant coatings. This project will then apply the fire-retardant coatings to the RPF to create the target fire-retardant thermal insulation materials. New knowledge and patentable technologies to be generated will bring significant benefits to Australia by reducing energy costs and economic losses associated with building fires.Read moreRead less