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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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Flexible dye-sensitised solar cells on polymer substrates. The expected outcomes of the project are the preparation and development of flexible solar cells. The resulting portable and compact solar cells could be incorporated in fabrics opening the solar cell market to the clothing industry. The products and mechanisms developed are envisaged to be amenable to large scale-up in industry. Hence, at a future date, there is the potential to fabricate the cells in Australia and then export the mater ....Flexible dye-sensitised solar cells on polymer substrates. The expected outcomes of the project are the preparation and development of flexible solar cells. The resulting portable and compact solar cells could be incorporated in fabrics opening the solar cell market to the clothing industry. The products and mechanisms developed are envisaged to be amenable to large scale-up in industry. Hence, at a future date, there is the potential to fabricate the cells in Australia and then export the materials and technology. This will benefit the Australian economy through employment of Australians and income generated through exports.Read moreRead less
Renewable fuels and chemicals from fibrous organic waste and non-food crops. At current rates of resource usage, a world population with Australian standards of living would require between four and six planets. Solutions to existing and impending resource scarcity (water, power, chemical feedstocks) and associated greenhouse pollution are required in the short- to medium-term. The new catalysts and processes and their novel integration into an effective refining stream are designed to deliver t ....Renewable fuels and chemicals from fibrous organic waste and non-food crops. At current rates of resource usage, a world population with Australian standards of living would require between four and six planets. Solutions to existing and impending resource scarcity (water, power, chemical feedstocks) and associated greenhouse pollution are required in the short- to medium-term. The new catalysts and processes and their novel integration into an effective refining stream are designed to deliver the required breakthroughs, which will enable the broad adoption of lignocellulosic biomass for a sustainable solution. This is a major opportunity for Australia to address the fossil-fuel conundrum, and to show scientific leadership in an area that is set to drive economic and political change in the 21st century.Read moreRead less
Chemical and morphological engineering of semiconductor electrodes for high efficiency solar cells. The expected outcomes of the project are the preparation and development of sophisticated electrodes for solar cells, the main advantage of which resides in their designed chemical and morphological properties. The resulting electrodes have the potential to improve the efficiency of the solar cells over current industrially used materials. The products and mechanisms developed are envisaged to be ....Chemical and morphological engineering of semiconductor electrodes for high efficiency solar cells. The expected outcomes of the project are the preparation and development of sophisticated electrodes for solar cells, the main advantage of which resides in their designed chemical and morphological properties. The resulting electrodes have the potential to improve the efficiency of the solar cells over current industrially used materials. The products and mechanisms developed are envisaged to be amenable to large scale-up in industry. Hence, at a future date, there is the potential to fabricate the electrodes in Australia and then export the materials or technology internationally. This will benefit the Australian economy through employment of Australians and income generated through exports.Read moreRead less
Polymerization of amyloid fibrils and electroactive hybrid nanowires using ionic liquids. The electronics world is constantly shrinking with devices being miniaturised and increasing levels of complexity built in. To maintain this trend, new technologies and new device fabrication approaches are required. APD Byrne, will develop new materials based on amyloid fibrils by their facile conversion to a range of novel high strength electroactive nanoscopic wires with application in many electronic d ....Polymerization of amyloid fibrils and electroactive hybrid nanowires using ionic liquids. The electronics world is constantly shrinking with devices being miniaturised and increasing levels of complexity built in. To maintain this trend, new technologies and new device fabrication approaches are required. APD Byrne, will develop new materials based on amyloid fibrils by their facile conversion to a range of novel high strength electroactive nanoscopic wires with application in many electronic devices. One such device that will benefit from these nanowires is organic solar cells. Solar is a clean renewable energy source that can reduce Australia's dependence on fossil fuels. The development of new approaches and materials aimed at increasing solar cell efficiencies is an important outcome for Australia.Read moreRead less
Engineered materials for future energy technologies. The development of new technologies to be applied in fuel generation, energy conversion and environmental remediation will have wide national and international impact. The cross-disciplinary and cross-institution research program proposed will draw on expertise within Australia and in Europe for the fabrication of materials for next generation energy devices. In the future, there is the potential that these materials could be fabricated within ....Engineered materials for future energy technologies. The development of new technologies to be applied in fuel generation, energy conversion and environmental remediation will have wide national and international impact. The cross-disciplinary and cross-institution research program proposed will draw on expertise within Australia and in Europe for the fabrication of materials for next generation energy devices. In the future, there is the potential that these materials could be fabricated within Australia and therefore lead to employment nationally, and income generated through the export of advanced catalysts, solar cells and sequestration materials.Read moreRead less