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Experimental and Theoretical Studies of Vanadium Oxide Nanostructures and Their Functional Properties. This project is primarily devoted to material science and nanotechnology, one of the cutting-edge areas in Australia's National Research Priority. Successful completion of this project will result in controlled synthesis, functional assembly and fundamental understanding of vanadium oxide nanostructures. The research findings will be useful for developing new and complex nanostructures for func ....Experimental and Theoretical Studies of Vanadium Oxide Nanostructures and Their Functional Properties. This project is primarily devoted to material science and nanotechnology, one of the cutting-edge areas in Australia's National Research Priority. Successful completion of this project will result in controlled synthesis, functional assembly and fundamental understanding of vanadium oxide nanostructures. The research findings will be useful for developing new and complex nanostructures for functional applications in lithium ionic batteries, catalysts and gas sensors. The conduct of this project will significantly expand the knowledge creativity of Australia in research in advanced materials.Read moreRead less
Polyanionic carbon ligands in metal complexes as new reagents in organometallic and inorganic chemistry. The proposed research will benefit Australia by creating a knowledge base in an internationally important area of chemistry. It addresses fundamental questions in organometallic chemistry that will be of great significance for chemical synthesis as well as for a greater understanding of structure and bonding. Through an integrated and interdisciplinary approach, the exploitation of technologi ....Polyanionic carbon ligands in metal complexes as new reagents in organometallic and inorganic chemistry. The proposed research will benefit Australia by creating a knowledge base in an internationally important area of chemistry. It addresses fundamental questions in organometallic chemistry that will be of great significance for chemical synthesis as well as for a greater understanding of structure and bonding. Through an integrated and interdisciplinary approach, the exploitation of technologies arising from this research programme will be explored. In addition to the academic community, these technologies will benefit hi-tech industries including pharmaceutical and fine chemical concerns which will gain from the use of polymetalated carbon species in organic and inorganic synthesis, catalysis and the development of new materials.Read moreRead less
Organometallic Transformations of Organic Molecules. Simple hydrocarbons such as natural gas and petroleum are amongst the most abundant and readily available natural feedstocks for the organic chemical industry. However, apart from simply burning them for fuel, there are very few methods for using these materials as starting materials for industry. In chemical terms, simple hydrocarbons are very stable and this makes them difficult substances to convert cleanly to other more useful compounds. ....Organometallic Transformations of Organic Molecules. Simple hydrocarbons such as natural gas and petroleum are amongst the most abundant and readily available natural feedstocks for the organic chemical industry. However, apart from simply burning them for fuel, there are very few methods for using these materials as starting materials for industry. In chemical terms, simple hydrocarbons are very stable and this makes them difficult substances to convert cleanly to other more useful compounds. This research program investigates new approaches for converting hydrocarbons to more useful materials by using metals such as iron and ruthenium. This research program will provide a new route to ?value-added? products from hydrocarbons and develop new uses for these abundant raw materials.Read moreRead less
New Nanoscale Up-converting Photoluminescent Materials for Passive Safety Visual Systems. The demand for safety and security products is growing as the importance of providing an environment safer from natural, accidental or man-made threats increases in the community. Life safety applications in buildings and work environments as well as trains and planes for example are dependent upon the ability for non-powered passive systems to give efficient visual guidance in dangerous dark and smoke fill ....New Nanoscale Up-converting Photoluminescent Materials for Passive Safety Visual Systems. The demand for safety and security products is growing as the importance of providing an environment safer from natural, accidental or man-made threats increases in the community. Life safety applications in buildings and work environments as well as trains and planes for example are dependent upon the ability for non-powered passive systems to give efficient visual guidance in dangerous dark and smoke filled environments. This project will provide a practical demonstration of the successful implementation of nanotechnology to smaller Australian companies where it will overcome significant drawbacks in current manufacturing and yield new products which are activated in darkness by infrared radiation.Read moreRead less
Assembly and Interactions of Helical Supramolecular Structures. The project in advanced materials is significant in probing an exciting topology in nanostructural assemblies - helicates - the understanding of the interactions of which will assist the development of optically pure molecules that are the key to high-value drugs, thus contributing to enhanced development in the specialty chemicals and pharmaceuticals industry. The research may result in economic benefits for Australia, since it wil ....Assembly and Interactions of Helical Supramolecular Structures. The project in advanced materials is significant in probing an exciting topology in nanostructural assemblies - helicates - the understanding of the interactions of which will assist the development of optically pure molecules that are the key to high-value drugs, thus contributing to enhanced development in the specialty chemicals and pharmaceuticals industry. The research may result in economic benefits for Australia, since it will develop synthetic materials with the potential to perform tasks in high optical purity essential drug synthesis. Further, it will enhance the knowledge and skills base within the country through training of highly applicable scientists for a growing national priority area. 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
NMR Studies of Second Generation Polynuclear Platinum Compounds. Cancer affects one in four Australians and 50% of cancer patients are treated with cisplatin. BBR3464 is a new type of platinum anticancer drug that has shown promise in clinical trials, including results in cancers that do not respond to cisplatin treatment. Second-generation analogues, now under development, may offer significant advantages. This international collaboration between Prof. Berners-Price and the inventor of these ne ....NMR Studies of Second Generation Polynuclear Platinum Compounds. Cancer affects one in four Australians and 50% of cancer patients are treated with cisplatin. BBR3464 is a new type of platinum anticancer drug that has shown promise in clinical trials, including results in cancers that do not respond to cisplatin treatment. Second-generation analogues, now under development, may offer significant advantages. This international collaboration between Prof. Berners-Price and the inventor of these new drugs puts Australian research at the forefront of the clinical development. There is the potential for the generation of new IP from new strategies in the design of improved anticancer drugs. The project builds strong international links and provides international training for Australian PhD students.Read moreRead less
DNA interactions of polynuclear platinum. Mechanistic NMR studies probing the origin of the unique antitumour activity of BBR3464. BBR3464 is one of a class of structurally unique platinum anticancer drugs that is currently undergoing clinical trials. The anticancer activity most likely depends on binding to DNA, but the mechanism is quite different from that of the widely used drug, cisplatin. This project uses NMR spectroscopy to follow the processes involved in the initial binding of the dr ....DNA interactions of polynuclear platinum. Mechanistic NMR studies probing the origin of the unique antitumour activity of BBR3464. BBR3464 is one of a class of structurally unique platinum anticancer drugs that is currently undergoing clinical trials. The anticancer activity most likely depends on binding to DNA, but the mechanism is quite different from that of the widely used drug, cisplatin. This project uses NMR spectroscopy to follow the processes involved in the initial binding of the drug to DNA and the subsequent reactions of the adducts formed. The results of this work will aid in the selection of back-up clinical candidates and in the design of drugs that target specific sequences of DNA for use in novel gene-based therapies.Read moreRead less
Probing polynuclear platinum biomolecule interactions. Cancer affects one in four Australians and 50% of cancer patients are treated with cisplatin. BBR3464 is a new type of platinum anticancer drug that has shown promise in clinical trials, including results in cancers that do not respond to cisplatin treatment. Second-generation analogues, now under development, may offer significant advantages. This international collaboration with the inventor of these new drugs puts Australian research at t ....Probing polynuclear platinum biomolecule interactions. Cancer affects one in four Australians and 50% of cancer patients are treated with cisplatin. BBR3464 is a new type of platinum anticancer drug that has shown promise in clinical trials, including results in cancers that do not respond to cisplatin treatment. Second-generation analogues, now under development, may offer significant advantages. This international collaboration with the inventor of these new drugs puts Australian research at the forefront of the clinical development. There is the potential for the generation of new IP from new strategies in the design of improved anticancer drugs. The project builds strong international links and provides international training for Australian PhD students. Read moreRead less
Design, Evaluation, and Selection of Novel Pt(IV) Complexes as Anticancer Agents. Platinum anticancer drugs are arguably the most widely used anticancer agents in the world but serious problems remain with toxicity and resistance. Platinum(IV) compounds have numerous advantages in terms of stability and thereby, lower toxicity. In this project we will exploit these advantages along with others that we have discovered recently and our understanding of the chemistry and biology of platinum(IV) to ....Design, Evaluation, and Selection of Novel Pt(IV) Complexes as Anticancer Agents. Platinum anticancer drugs are arguably the most widely used anticancer agents in the world but serious problems remain with toxicity and resistance. Platinum(IV) compounds have numerous advantages in terms of stability and thereby, lower toxicity. In this project we will exploit these advantages along with others that we have discovered recently and our understanding of the chemistry and biology of platinum(IV) to develop novel platinum(IV) compounds to the point where the industry partner can commercialise them.Read moreRead less