Switchable interfaces. The discovery project will challenge some of the most demanding issues regarding adhesion and molecular separation: - Surfaces that can release/prevent bio-film formation can provide novel solutions for corrosion-protection, implants, anti-fouling in medical devices as well as in industrial piping and reactors. - Materials for separation on the molecular level, which can bring new possibilities for fast and selective processes to the pharmaceutical industry. The novel comb ....Switchable interfaces. The discovery project will challenge some of the most demanding issues regarding adhesion and molecular separation: - Surfaces that can release/prevent bio-film formation can provide novel solutions for corrosion-protection, implants, anti-fouling in medical devices as well as in industrial piping and reactors. - Materials for separation on the molecular level, which can bring new possibilities for fast and selective processes to the pharmaceutical industry. The novel combination of the two materials research fields - plasma-polymerisation and electroactive materials- will lead to an international capability at the forefront of separation and adhesion research.Read moreRead less
Novel Fuel-Cell Structures based on Electroactive Polymers. The Discovery Project will tackle some of the challenging issues regarding the conversion of our society into a post-petroleum era through: Development and understanding of a new class of organic catalysts for efficient low temperature fuel-cells; Developing cheap and effective, ultra-thin, ion-conducting membranes for fuel-cells based on new plasma-polymers; and Integrating the components into fuel-cells suitable for stationary, portab ....Novel Fuel-Cell Structures based on Electroactive Polymers. The Discovery Project will tackle some of the challenging issues regarding the conversion of our society into a post-petroleum era through: Development and understanding of a new class of organic catalysts for efficient low temperature fuel-cells; Developing cheap and effective, ultra-thin, ion-conducting membranes for fuel-cells based on new plasma-polymers; and Integrating the components into fuel-cells suitable for stationary, portable and automotive applications. These outcomes will contribute to national research priorities: Frontier Technologies for building and transforming Australian Industries, and An Environmentally Sustainable Australia.
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Synthesis of Novel Biomaterials for Drug delivery. A new UV radiation polymerisation technique utilising charge-transfer complexes is adopted for synthesising novel hydrogels, a group of biomaterials for drug delivery. This work is significant as charge-transfer complexes, pertinent to the formation of hydrogels, form copolymers within the hydrogel matrices. This eliminates using costly, yet undesirable photo-initiators (PI), thus rendering the hydrogels as cleaner (PI-free) and more economical ....Synthesis of Novel Biomaterials for Drug delivery. A new UV radiation polymerisation technique utilising charge-transfer complexes is adopted for synthesising novel hydrogels, a group of biomaterials for drug delivery. This work is significant as charge-transfer complexes, pertinent to the formation of hydrogels, form copolymers within the hydrogel matrices. This eliminates using costly, yet undesirable photo-initiators (PI), thus rendering the hydrogels as cleaner (PI-free) and more economical in production; the products present themselves as ideal treatment methods in the controlled-release of drugs, specifically targeting localised pathological sites of interest. The research findings will be invaluable to medical practices, leading to the creation of new industries in Australia.
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Electro-Catalytic Conjugated Polymers. The Future Fellowship will tackle some of the challenging issues regarding the conversion of our society into a post-petroleum era through: Development and understanding of a new class of catalysts for efficient conversion and storage of energy. Developing cheap and effective electrodes structures for next generation transport and storage technologies i.e. fuel-cells for cars and flexible solar-cells for electricity production. Collaborating at an internati ....Electro-Catalytic Conjugated Polymers. The Future Fellowship will tackle some of the challenging issues regarding the conversion of our society into a post-petroleum era through: Development and understanding of a new class of catalysts for efficient conversion and storage of energy. Developing cheap and effective electrodes structures for next generation transport and storage technologies i.e. fuel-cells for cars and flexible solar-cells for electricity production. Collaborating at an international level with leading groups in the sustainable energy field. These outcome will contribute to National Research Priorities 2; Frontier Technologies for building and transforming Australian Industries and 1; An Environmentally Sustainable AustraliaRead moreRead less