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ARC Centre of Excellence - Centre for Free Radical Chemistry and Biotechnology. Free radical chemistry is of increasing importance in the manufacture of improved plastics, paints and related materials, in helping restrict oxidative processes that can lead to adverse human health and also to the degradation of important industrial materials. The research will contribute to promoting & maintaining good health by developing new methods for reducing the impacts of ageing as well as in the treatment ....ARC Centre of Excellence - Centre for Free Radical Chemistry and Biotechnology. Free radical chemistry is of increasing importance in the manufacture of improved plastics, paints and related materials, in helping restrict oxidative processes that can lead to adverse human health and also to the degradation of important industrial materials. The research will contribute to promoting & maintaining good health by developing new methods for reducing the impacts of ageing as well as in the treatment of several life-threatening conditions such as stroke. Industrial applications include better surface coatings for preserving metals, and additives to improve the quality and shelf life of beer and wines.Read moreRead less
Atmospheric Free-Radicals: Exploring the Role of Nitrate Radicals in the Oxidative Damage of Bio-Surfaces. This project falls within the National Research Priority 2 (Promoting and Maintaining Good Health) as identified by the ARC, specifically Priority Goal 2 (Ageing well, ageing productively) and Priority Goal 3 (Preventive healthcare). The study will lead to a better understanding of environmental factors influencing health and welfare of Australians every age and will provide unique opport ....Atmospheric Free-Radicals: Exploring the Role of Nitrate Radicals in the Oxidative Damage of Bio-Surfaces. This project falls within the National Research Priority 2 (Promoting and Maintaining Good Health) as identified by the ARC, specifically Priority Goal 2 (Ageing well, ageing productively) and Priority Goal 3 (Preventive healthcare). The study will lead to a better understanding of environmental factors influencing health and welfare of Australians every age and will provide unique opportunities for students to be trained in cutting-edge basic research. Knowledge and fundamental understanding of the damage of bio-surfaces caused by atmospheric free-radical oxidants and their potential role in ageing processes will help to develop novel medical strategies, which substantially contribute to the quality of Australian sciences.Read moreRead less
Chemical Synthesis of Bioactive Metabolites and Analogues from Marine Sources and Myxobacteria. This project could result in the production of a new type of anticancer compound. The proposal will study the synthesis of novel natural product analogues that could possess superior biological activities to the natural compounds. In addition, new chemistry may be developed which could be utilised to synthesise a number of related molecules.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0238898
Funder
Australian Research Council
Funding Amount
$352,000.00
Summary
Novel Optical Microprobes - fluorescence excitation, lifetime and surface enhanced Raman spectroscopies. State-of-the-art technologies in microscopy will be combined with the versatility and diagnostic power of spectroscopy for the analysis and identification of materials by methods sensitive to chemical structure as well as spatial inhomogeneity. The proposed systems will operate within an existing multi-user optical characterisation facility at Macquarie University thus supporting the research ....Novel Optical Microprobes - fluorescence excitation, lifetime and surface enhanced Raman spectroscopies. State-of-the-art technologies in microscopy will be combined with the versatility and diagnostic power of spectroscopy for the analysis and identification of materials by methods sensitive to chemical structure as well as spatial inhomogeneity. The proposed systems will operate within an existing multi-user optical characterisation facility at Macquarie University thus supporting the research of an established and expanding network of researchers in the Sydney area and in Melbourne. The suite of instruments will provide new and exciting avenues for interdisciplinary research between the physical and biological sciencesRead moreRead less
Gas Phase Studies to Catalyze a Better Understanding of Metal Reactivity. The proposed research will increase knowledge of fundamental questions related to the mechanisms of catalysis and metal ion reactivity. The insights gained will be an important addition to the knowledge base of our culture, both nationally and in the wider international context. We note that research into the behaviour and design of catalysts is a burgeoning field which reflects the great importance of this area in the int ....Gas Phase Studies to Catalyze a Better Understanding of Metal Reactivity. The proposed research will increase knowledge of fundamental questions related to the mechanisms of catalysis and metal ion reactivity. The insights gained will be an important addition to the knowledge base of our culture, both nationally and in the wider international context. We note that research into the behaviour and design of catalysts is a burgeoning field which reflects the great importance of this area in the international scientific community. Our proposal will add to fundamental knowledge and may also result in practical applications. More importantly, we will train and equip talented young people with a spectrum of skills which will make them well placed to meet the demand for highly skilled professional scientists.Read moreRead less
Metal catalysed reactions in organic synthesis. The major aim of this project is to develop highly efficient metal-catalysed routes to pharmaceuticals, e.g. new antibiotics and other commercially important organic molecules.
Particular attention will be paid to developing systems which facilitate the addition of readily available, cheap small molecules, e.g. hydrogen and carbon monoxide, to unsaturated organic molecules with high regio- and stereoselectivity.
Worldwide demand for enantiomeric ....Metal catalysed reactions in organic synthesis. The major aim of this project is to develop highly efficient metal-catalysed routes to pharmaceuticals, e.g. new antibiotics and other commercially important organic molecules.
Particular attention will be paid to developing systems which facilitate the addition of readily available, cheap small molecules, e.g. hydrogen and carbon monoxide, to unsaturated organic molecules with high regio- and stereoselectivity.
Worldwide demand for enantiomerically pure chiral molecules (i.e. one mirror-image form) continues to rise. New metal-catalysed asymmetric syntheses will help meet this challenge. Tandem metal-catalysed reactions will be used to prepare new heterocyclic compounds with potential as specific metal binding agents and biosensors.Read moreRead less
Biomimetic and Methodology Based Total Synthesis of Bioactive Natural Products. The proposal will study the synthesis of novel natural products that possess biological activities. Most significantly, this project will deliver compounds with anticancer activity. In addition, chemistry may be developed which could be utilised to synthesise a number of bioactive molecules. The rewards of the synthesis of compounds and application for the treatment of cancer and other diseases are enormous for the ....Biomimetic and Methodology Based Total Synthesis of Bioactive Natural Products. The proposal will study the synthesis of novel natural products that possess biological activities. Most significantly, this project will deliver compounds with anticancer activity. In addition, chemistry may be developed which could be utilised to synthesise a number of bioactive molecules. The rewards of the synthesis of compounds and application for the treatment of cancer and other diseases are enormous for the community and in the education and training of scientists.Read moreRead less
Structures and Properties of beta-R3M (M = Si, Ge, Sn)- and beta-Chalcogenyl-substituted Carbenium Ions. The benefits of this work are many-fold. The scientific knowledge gained will be invaluable to all scientists working in organic chemistry; mechanistic chemists who will learn from the science, and synthetic organic chemists who can utilise the results when planning strategies for the synthesis of complex drugs. Another major benefit of this research is in the training of young scientists. Th ....Structures and Properties of beta-R3M (M = Si, Ge, Sn)- and beta-Chalcogenyl-substituted Carbenium Ions. The benefits of this work are many-fold. The scientific knowledge gained will be invaluable to all scientists working in organic chemistry; mechanistic chemists who will learn from the science, and synthetic organic chemists who can utilise the results when planning strategies for the synthesis of complex drugs. Another major benefit of this research is in the training of young scientists. The students who work on this proposal gain invaluable experience in many areas of chemistry, ranging from synthetic chemistry to structural chemistry and theoretical chemistry. They will also gain experience in important physical techniques from NMR spectroscopy to X-ray crystallography.Read moreRead less
New polymerisation processes for the synthesis of novel biopolymers. Synthetic peptide-based vaccines, formed via polymerisation of small bioactive motifs, possess several advantages over traditional approaches and promise to be the multi-disease targeting vaccines of the future. Disease targets will include influenza and hepatitis C viruses and a toxin from enteropathogenic Escherichia coli. These three diseases are in desperate need of novel vaccine approaches and the chemistries described in ....New polymerisation processes for the synthesis of novel biopolymers. Synthetic peptide-based vaccines, formed via polymerisation of small bioactive motifs, possess several advantages over traditional approaches and promise to be the multi-disease targeting vaccines of the future. Disease targets will include influenza and hepatitis C viruses and a toxin from enteropathogenic Escherichia coli. These three diseases are in desperate need of novel vaccine approaches and the chemistries described in this proposal represent a conceptual leap over traditional, and so far ineffective approaches investigated thus far. Synthetic antifreeze proteins and bioelastomers will also be constructed using our catalysis driven polymerisation process and applied to unmet medical and industrial needs.Read moreRead less
Synthesis of Myxobacteria Metabolites and Analogues. The proposal will study the synthesis of novel natural product analogues that could possess superior biological activities to the natural compounds. In addition, new chemistry may be developed which could be utilised to synthesise a number of bioactive molecules from myxobacteria.