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
Precision-built dynamic and functional polymer vesicles. The project aims to create new precision-built polymer vesicles with controlled size, stability, functionality and environmental responsiveness to mimic some of the key dynamic functions of the cell. The project expects to generate new knowledge on the dynamic interplay between the polymer and its bilayer including on-demand activated polymerisations and reactions, logic gates and in situ sensors. Expected outcomes of this project include ....Precision-built dynamic and functional polymer vesicles. The project aims to create new precision-built polymer vesicles with controlled size, stability, functionality and environmental responsiveness to mimic some of the key dynamic functions of the cell. The project expects to generate new knowledge on the dynamic interplay between the polymer and its bilayer including on-demand activated polymerisations and reactions, logic gates and in situ sensors. Expected outcomes of this project include new synthetic polymer techniques and new quantitative insights into the role of compartmentalisation on chemical reactions and polymerisations. This project will provide fundamental knowledge on bio/polymer vesicles with great potential to advance the polymer industry in Australia.Read moreRead less