Quantum Information and Entanglement: a new framework for Science and Technology with quantum many-body systems. The expected outcome of the research program is a significant boost in the understanding of quantum many-body systems, which will reinforce Australia's competitiveness and international profile in aspects of breakthrough science and frontier technologies. By developing both the underpinning theory and innovative computational tools, and by applying them to problems of recognised impor ....Quantum Information and Entanglement: a new framework for Science and Technology with quantum many-body systems. The expected outcome of the research program is a significant boost in the understanding of quantum many-body systems, which will reinforce Australia's competitiveness and international profile in aspects of breakthrough science and frontier technologies. By developing both the underpinning theory and innovative computational tools, and by applying them to problems of recognised importance, this program will have direct implications in areas of condensed matter physics, quantum statistical mechanics, particle physics, complex systems, quantum information science and technology, quantum computation, engineered quantum systems and nanotechnology. 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
Molecular Engineered Nanomaterials for Advanced Fuel Cells. This program aims to develop a new class of proton-conducting materials with high proton-conductivity, low gas permeability and good thermal stability for application to advanced fuel cells. The strategy for such a new material is to exploit the unique properties of nanoscale particles of metal phosphates and silicates, hybridised with proton-conducting polymers. Such new materials will be enabling technology for commercialising both hy ....Molecular Engineered Nanomaterials for Advanced Fuel Cells. This program aims to develop a new class of proton-conducting materials with high proton-conductivity, low gas permeability and good thermal stability for application to advanced fuel cells. The strategy for such a new material is to exploit the unique properties of nanoscale particles of metal phosphates and silicates, hybridised with proton-conducting polymers. Such new materials will be enabling technology for commercialising both hydrogen and methanol fuel cells, promising a revolutionary clean energy supply particularly for transport vehicles and mobile devices. This research advances the material science of nanostructured composite of proton-conducting nanoparticles, a key to high performance fuel cell membranes.Read moreRead less