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
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
Exploring the Frontiers of Free-Radical Chemistry: Self-Terminating Radical Reactions. Self-terminating free-radical reactions are a new concept in the chemist's synthetic armory. This innovative technique, invented by the chief investigators, has enormous synthetic scope that is yet largely untapped. This proposal seeks to develop novel reactions based on this concept; to explore their generality and versatility in organic synthesis through the use of both laboratory and computational techniq ....Exploring the Frontiers of Free-Radical Chemistry: Self-Terminating Radical Reactions. Self-terminating free-radical reactions are a new concept in the chemist's synthetic armory. This innovative technique, invented by the chief investigators, has enormous synthetic scope that is yet largely untapped. This proposal seeks to develop novel reactions based on this concept; to explore their generality and versatility in organic synthesis through the use of both laboratory and computational techniques. In this manner, singificant contributions to frontier technologies and breakthrough science will be made.Read moreRead less
Coinage metal nanoclusters: synthesis, structure and reactivity. Metal catalysts play important roles in the multi-billion dollar production of many industrial and fine chemicals used in wide-ranging applications including pharmaceuticals, insecticides and polymers. Despite the importance of metal catalysed reactions, the molecular details of such processes remain poorly understood. Breakthrough studies highlight that reactions previously thought to be catalysed by discrete metal catalysts are i ....Coinage metal nanoclusters: synthesis, structure and reactivity. Metal catalysts play important roles in the multi-billion dollar production of many industrial and fine chemicals used in wide-ranging applications including pharmaceuticals, insecticides and polymers. Despite the importance of metal catalysed reactions, the molecular details of such processes remain poorly understood. Breakthrough studies highlight that reactions previously thought to be catalysed by discrete metal catalysts are in fact catalysed by metal nanoclusters. This project involves the application of advanced mass spectrometric and computational methods to explore the formation and reactivity of copper, silver and gold nanoclusters. Identification of key reactive intermediates will inform the design of next generation catalysts.Read moreRead less
New metal catalysed tandem routes to nitrogen containing compounds. Catalyst based manufacturing accounts for 60 per cent of chemical production and 90 per cent of processes. This project aims to improve the efficiency of catalysis and to develop new applications of catalysis for the synthesis of heterocycles, polyamide monomers and carbocyclic peptides.
Chiral Catalysts by Rational Design. This project aims to integrate theory and experiment to design new catalysts for the synthesis of multi-stereocentre-containing molecules. Such molecules offer clear advantages in the area of drug design, owing to their potent and selective binding to biological targets, but a lack of available methods for their preparation currently limits their widespread use. This project will use theory to guide the discovery of new ways to make these molecules. It is exp ....Chiral Catalysts by Rational Design. This project aims to integrate theory and experiment to design new catalysts for the synthesis of multi-stereocentre-containing molecules. Such molecules offer clear advantages in the area of drug design, owing to their potent and selective binding to biological targets, but a lack of available methods for their preparation currently limits their widespread use. This project will use theory to guide the discovery of new ways to make these molecules. It is expected that detailed understanding of the factors that control stereocentre formation will be obtained from accurate theoretical modelling and will be applied to invent new catalysts that deliver improved performance and control over product structure.Read moreRead less