Deliberative Global Governance. The worldwide movement building deliberative democracy should now address deliberative capacity in whole systems, not just micro innovations such as citizens' juries. This includes global systems such as that addressing climate change; substantial environmental benefits will result. A world populated by more effective democracies - especially in East Asia - is in Australia's national security interest. A century ago, Australia was a world leader in innovations suc ....Deliberative Global Governance. The worldwide movement building deliberative democracy should now address deliberative capacity in whole systems, not just micro innovations such as citizens' juries. This includes global systems such as that addressing climate change; substantial environmental benefits will result. A world populated by more effective democracies - especially in East Asia - is in Australia's national security interest. A century ago, Australia was a world leader in innovations such as the secret ballot and votes for women. Work on deliberative democracy can put Australia back in the forefront of democratic progress, with many associated social, political, and economic benefits.Read moreRead less
Restorative Justice and Responsive Governance: Fresh Challenges, New Theory, Global Networks. War causes not only human suffering; it threatens the health and education of children and children's children. It sets back economies, encourages transnational crime through trafficking drugs, people, money laundering, guns and terror across our region in ways that directly affect Australians. This research will provide fresh insights from the successes and failures of peacebuilding in the Pacific and ....Restorative Justice and Responsive Governance: Fresh Challenges, New Theory, Global Networks. War causes not only human suffering; it threatens the health and education of children and children's children. It sets back economies, encourages transnational crime through trafficking drugs, people, money laundering, guns and terror across our region in ways that directly affect Australians. This research will provide fresh insights from the successes and failures of peacebuilding in the Pacific and Asia. The effectiveness of new restorative and responsive strategies for improving the performance of our health system, strengthening the knowledge economy, improving competition and preventing crime will be tested and developed. Australia will grow as the dominant locus of research on restorative and responsive strategies that work.Read moreRead less
RUSSIA (THE SOVIET UNION) AND AUSTRALIA IN THE 20TH AND 21ST CENTURIES. Revitalize Australian Russian studies by bringing in internationally recognized leadership and cutting-edge projects; making the University of Melbourne's Russian centre not just the southern hemisphere leader in this field but also a significant player worldwide.
Building Democracy and Justice after Conflict. Weak governance is a cause of terrorism. Australia is increasingly involved in nation-building projects, both in its region and internationally. This project will build Australia's expertise in the ways that international law can promote democracy and justice after conflict. It will develop guidelines for states and organisations involved in peace and nation-building. The project will thus contribute to safeguarding Australia by increasing Austra ....Building Democracy and Justice after Conflict. Weak governance is a cause of terrorism. Australia is increasingly involved in nation-building projects, both in its region and internationally. This project will build Australia's expertise in the ways that international law can promote democracy and justice after conflict. It will develop guidelines for states and organisations involved in peace and nation-building. The project will thus contribute to safeguarding Australia by increasing Australia's capacity to engage with, and interpret itself to, its neighbours and the broader international community, as well as by tackling the threat of terrorism.Read moreRead less
From Nanostructured Functional Materials to Sustainable Processes. Nano-structured functional materials in the areas of catalysis and reversible hydrogen storage will be developed with the view to arrive at (a) sustainable processes and (b) the adoption of hydrogen as an energy carrier. These aims are driven by a global need to change the industrial paradigm due to environmental pressures and limited resources, particularly in terms of energy. Expected outcomes are new avenues to process intens ....From Nanostructured Functional Materials to Sustainable Processes. Nano-structured functional materials in the areas of catalysis and reversible hydrogen storage will be developed with the view to arrive at (a) sustainable processes and (b) the adoption of hydrogen as an energy carrier. These aims are driven by a global need to change the industrial paradigm due to environmental pressures and limited resources, particularly in terms of energy. Expected outcomes are new avenues to process intensification, leading to novel commercial routes, and a hydrogen storage technology which has the potential to play a strong part in the global economy.Read moreRead less
Band-Gap Engineered Visible Light Photocatalysts: Enabling Technologies for Sustainable Energy and the Environment. This program will contribute significantly to knowledge advancement in colloid chemistry, nanomaterials and electrochemistry, and is firmly embedded in the National Research Priorities of Frontier Science and an Environmentally Sustainable Australia. In particular, it addresses the goals of water and low emission energy supply. The outcomes of this research will advance a new class ....Band-Gap Engineered Visible Light Photocatalysts: Enabling Technologies for Sustainable Energy and the Environment. This program will contribute significantly to knowledge advancement in colloid chemistry, nanomaterials and electrochemistry, and is firmly embedded in the National Research Priorities of Frontier Science and an Environmentally Sustainable Australia. In particular, it addresses the goals of water and low emission energy supply. The outcomes of this research will advance a new class of visible-light active photocatalysts that underpin the development of hydrogen generation, low cost solar cells and water purification using sunlight. Such technologies will transform the Australian energy and environmental industries and speed up the transition from a fossil fuel economy to a renewable energy economy.Read moreRead less
Engineered optical fibre device structures for next generation telecommunication systems. The next generation of optical telecommunication networks requires novel photonic compnents that are superior to current devices, and cannot be obtained by incremental improvement. This project will identify novel device architectures and implement these in practical devices. This will ensure that Australia remains at the cutting edge of photonics research, one of the most dynamic and exciting ereas in sc ....Engineered optical fibre device structures for next generation telecommunication systems. The next generation of optical telecommunication networks requires novel photonic compnents that are superior to current devices, and cannot be obtained by incremental improvement. This project will identify novel device architectures and implement these in practical devices. This will ensure that Australia remains at the cutting edge of photonics research, one of the most dynamic and exciting ereas in science and engineering and at the basis of a multibillion dollar industry.Read moreRead less
Advanced Molecular Nanomaterials. The design and construction of advanced nanomaterials is a key step in the push towards smarter and more efficient high-level technologies. Here we mount a major research program into the strategic assembly of molecular nanomaterials that have entirely new and highly useful properties. This innovative work will lead to important fundamental advances in nanoscience and will forge deep understandings of how materials properties relate to nanoscale structure. Th ....Advanced Molecular Nanomaterials. The design and construction of advanced nanomaterials is a key step in the push towards smarter and more efficient high-level technologies. Here we mount a major research program into the strategic assembly of molecular nanomaterials that have entirely new and highly useful properties. This innovative work will lead to important fundamental advances in nanoscience and will forge deep understandings of how materials properties relate to nanoscale structure. These advances will spur a wide range of important new technologies, with application of the materials in electronics, photonics, molecular sensing, drug synthesis and purification, clean energy and the controlled release of agrochemicals and pharmaceuticals.Read moreRead less
Creation of novel photonic and nanostructured materials by ablation of solids with ultra-fast lasers. This project will study of the production of technologically important thin film materials and nanostructured materials using our patented ultra-fast pulsed laser deposition process. Thin film materials required for future applications in photonics will be a priority. In addition ultra-fast pulsed laser deposition can be used to create nanopartilces and mechanisms affecting the growth of these ....Creation of novel photonic and nanostructured materials by ablation of solids with ultra-fast lasers. This project will study of the production of technologically important thin film materials and nanostructured materials using our patented ultra-fast pulsed laser deposition process. Thin film materials required for future applications in photonics will be a priority. In addition ultra-fast pulsed laser deposition can be used to create nanopartilces and mechanisms affecting the growth of these materials will be studied. The project therefore falls into two priority areas: photon science and nanotechnology. Outcomes in addition to new knowledge will include materials and processes with commercial potential.Read moreRead less
Probing the Interface Between Polymeric Photonic Materials and Biology. This application provides a basis for Professor A. B. Holmes to develop a collaboration between the University of Melbourne (within the Bio21 Institute initiative) and CSIRO Division of Molecular Science to prepare novel plastics for electronics applications (lap top displays, transistors and solar cells) and to make specialised macromolecules for studying the way in which biological molecules may be made to recognise other ....Probing the Interface Between Polymeric Photonic Materials and Biology. This application provides a basis for Professor A. B. Holmes to develop a collaboration between the University of Melbourne (within the Bio21 Institute initiative) and CSIRO Division of Molecular Science to prepare novel plastics for electronics applications (lap top displays, transistors and solar cells) and to make specialised macromolecules for studying the way in which biological molecules may be made to recognise other molecules and thus change their function. It is envisaged that the multidisciplinary research collaboration will lead to commercial opportunities in "plastic electronics" and in human health such as the control of cancer and infectious diseases.Read moreRead less