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Advancing the Metal-Organic Chemistry of the Heavy Alkaline Earth Elements. The project will open up a new area in Australian metal based chemical research, deriving high value added products from the already existing exploitation of Australia's substantial alkaline earth metal mineral resources. Internationally recognised expertise in the design and manipulation of highly reactive chemical tools will contribute breakthrough science and innovation to the growing pharmaceutical, fine chemicals an ....Advancing the Metal-Organic Chemistry of the Heavy Alkaline Earth Elements. The project will open up a new area in Australian metal based chemical research, deriving high value added products from the already existing exploitation of Australia's substantial alkaline earth metal mineral resources. Internationally recognised expertise in the design and manipulation of highly reactive chemical tools will contribute breakthrough science and innovation to the growing pharmaceutical, fine chemicals and smart materials industry, with the potential to provide nascent and established Australian companies a competitive edge in new product development. Students will be trained in the necessary skills to succeed in and expand such technically demanding area of metal based chemistry.Read moreRead less
Frontiers in synthetic and structural rare earth chemistry. Rare earth elements are a major under-utilised Auatralian resource.
Their commercial development requires knowledge and progression of their
chemistry. Advancing the chemistry of highly reactive, air-sensitive
metalorganics will provide the breakthrough science to underpin future
applications in chemical manufacture, catalysis and new materials.
Transformation of rare earth chemistry to achieve behaviour hitherto
atypical of these ....Frontiers in synthetic and structural rare earth chemistry. Rare earth elements are a major under-utilised Auatralian resource.
Their commercial development requires knowledge and progression of their
chemistry. Advancing the chemistry of highly reactive, air-sensitive
metalorganics will provide the breakthrough science to underpin future
applications in chemical manufacture, catalysis and new materials.
Transformation of rare earth chemistry to achieve behaviour hitherto
atypical of these elements by steric and electronic modulation of
attached groups will value-add to their properties.Read moreRead less
Rare Earth Metal-Organic Compounds - A Source of Continuing Excitement. Australia has the world's second largest rare earth resources which are at best exported unprocessed leading to an 80-fold mark up on import of separated products. This project builds the expertise and knowledge needed to underpin Australian rare earth processing and develops the breakthrough science needed for new applications or rare earths.
Development and Biological Chemistry of Novel Platinum Anti-Cancer Agents. "Rule-breakers", platinum anticancer complexes that do not follow the well established structure/activity relationships, have emerged as the way forward in the treatment of cancer resistant to the current generation of drugs and in reducing side effects. We have developed two new groups of "rule-breakers" and these have already demonstrated highly promising anticancer activity and novel biological behaviour. In this proje ....Development and Biological Chemistry of Novel Platinum Anti-Cancer Agents. "Rule-breakers", platinum anticancer complexes that do not follow the well established structure/activity relationships, have emerged as the way forward in the treatment of cancer resistant to the current generation of drugs and in reducing side effects. We have developed two new groups of "rule-breakers" and these have already demonstrated highly promising anticancer activity and novel biological behaviour. In this project we will (i) prepare new anticancer active platinum complexes based on these two highly promising groups of compounds and (ii) determine how these drugs work and what happens to them when in biological environments.Read moreRead less
Redox initiated chemistry of hydrogenase H-cluster model compounds: Biologically inspired hydrogen activation catalysts? High efficiency, low temperature, cheap hydrogen activation catalysts suitable for fuel cell applications would provide the basis for the development of environmentally benign technologies suitable for transportation and some power applications. Hydrogenase enzymes are high efficiency, low temperature, hydrogen activation catalysts and the active site of the all-iron version ....Redox initiated chemistry of hydrogenase H-cluster model compounds: Biologically inspired hydrogen activation catalysts? High efficiency, low temperature, cheap hydrogen activation catalysts suitable for fuel cell applications would provide the basis for the development of environmentally benign technologies suitable for transportation and some power applications. Hydrogenase enzymes are high efficiency, low temperature, hydrogen activation catalysts and the active site of the all-iron version of the enzyme has recently been revealed to be a remarkable, weakly protein bound, iron-sulfur-carbonyl-cyanide complex. Research into the reactions of redox activated abiological model compounds will provide insights into the molecular basis of the enzymatic reaction, potentially leading to the discovery of highly efficient, biologically inspired hydrogen activation catalysts.Read moreRead less