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
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
Neutron Scattering in Biology. Australia's Replacement Research Reactor will be a world-class neutron source, and represents the country's largest single investment in scientific research infrastructure. It is now essential to stimulate its production of high-quality research in materials science, chemistry and biology. The applicant is a recognised world leader in the field of neutron scattering research, particularly in biology. His presence in the Bragg Institute, which manages the neutron ....Neutron Scattering in Biology. Australia's Replacement Research Reactor will be a world-class neutron source, and represents the country's largest single investment in scientific research infrastructure. It is now essential to stimulate its production of high-quality research in materials science, chemistry and biology. The applicant is a recognised world leader in the field of neutron scattering research, particularly in biology. His presence in the Bragg Institute, which manages the neutron scattering instruments on the reactor, will provide direction and impetus for the science that will be initiated there, advancing applications in materials science, medicine and biotechnology.Read moreRead less
Constructing The Building Blocks For Future Nanomaterial Design: Self-assembly and Information Storage in Synthetic Macromolecules. The Federation Fellowship will be used to build a research team with the expertise and the capabililty to assemble the building-blocks required for future applications in nanomateral design. This will be of benefit both to the general Australian research community in the development of new materials and also to support the creation of a vibrant high-tech industry u ....Constructing The Building Blocks For Future Nanomaterial Design: Self-assembly and Information Storage in Synthetic Macromolecules. The Federation Fellowship will be used to build a research team with the expertise and the capabililty to assemble the building-blocks required for future applications in nanomateral design. This will be of benefit both to the general Australian research community in the development of new materials and also to support the creation of a vibrant high-tech industry utilising synthetic materials for applications such as responsive membranes and 'clever' drug deliveryRead moreRead less
Molecular Mechanisms of Biochemical Regulation: Neutron and X-ray Scattering Studies. This project will develop and use novel neutron and x-ray scattering methods to study the molecular mechanisms by which nature regulates biochemical processes. Healthy function requires cells to tightly control and coordinate a myriad of molecular activities. My research focuses on a set of interdependent molecular networks inside cells whose behavior is controlled by the so-called 'second messengers' that tr ....Molecular Mechanisms of Biochemical Regulation: Neutron and X-ray Scattering Studies. This project will develop and use novel neutron and x-ray scattering methods to study the molecular mechanisms by which nature regulates biochemical processes. Healthy function requires cells to tightly control and coordinate a myriad of molecular activities. My research focuses on a set of interdependent molecular networks inside cells whose behavior is controlled by the so-called 'second messengers' that translate external signals into the right cellular responses. The proposed experiments will provide a unique structural framework by which we can understand how these signals are transmitted. Such knowledge is an important foundation for advances in biomedical research and biotechnology applications.Read moreRead less
Application of First-principles Theory in Condensed Matter Physics, Surface Physics, Chemistry, and Engineering: Coatings, Catalysis, and Devices. The project addresses areas of high technological interest, namely the development of nitride-based materials for hard-coatings, spintronic (control and use of electron spin) and optoelectronic (in the blue/UV energy range) devices - as well as the area of heterogeneous oxidation catalysis. Using state-of-the-art methods it will lead to the developme ....Application of First-principles Theory in Condensed Matter Physics, Surface Physics, Chemistry, and Engineering: Coatings, Catalysis, and Devices. The project addresses areas of high technological interest, namely the development of nitride-based materials for hard-coatings, spintronic (control and use of electron spin) and optoelectronic (in the blue/UV energy range) devices - as well as the area of heterogeneous oxidation catalysis. Using state-of-the-art methods it will lead to the development of new materials and devices of relevance to industry.Read moreRead less