Discovering new organic chemistry using an inorganic touch. This project aims to discover new organic chemistry by treating carbon like a metal atom. Advances in fundamental organic chemistry have been important in developing products, including medicines, plastics and television display technology. Much research activity relies on applying existing organic chemistry, but inventing genuinely new organic chemistry is more difficult. By viewing carbon as a metal, this project will try to solve imp ....Discovering new organic chemistry using an inorganic touch. This project aims to discover new organic chemistry by treating carbon like a metal atom. Advances in fundamental organic chemistry have been important in developing products, including medicines, plastics and television display technology. Much research activity relies on applying existing organic chemistry, but inventing genuinely new organic chemistry is more difficult. By viewing carbon as a metal, this project will try to solve important problems in organic chemistry that have been unresolved for decades, and synthesise valuable chemicals normally generated using expensive precious metal catalysts.Read moreRead less
Developing next generation click chemistry. This project aims to develop next generation click chemistry as an enabling synthetic technology for creating functional molecules. Click-philosophy, that 'all searches must be restricted to molecules that are easy to make', is a key requirement for rapid discovery of useful functional materials, medicines and molecular tools. Click linkers make this possible, and the project will develop a new range of asymmetric 3D-Connectors based upon readily avail ....Developing next generation click chemistry. This project aims to develop next generation click chemistry as an enabling synthetic technology for creating functional molecules. Click-philosophy, that 'all searches must be restricted to molecules that are easy to make', is a key requirement for rapid discovery of useful functional materials, medicines and molecular tools. Click linkers make this possible, and the project will develop a new range of asymmetric 3D-Connectors based upon readily available, yet unexplored main group gasses, and will demonstrate their usefulness in several applications including the synthesis of new polymers. The project will also develop the first general asymmetric Click reaction, which will have significant impact in biological applications and materials science. This project will result in the development of new synthetic chemistry technology that will have a global impact, which will add value to the knowledge economy of Australia and contribute skills and training to the next generation of Australian scientists.Read moreRead less
Breaking it down: Dissecting the mechanism and exploring new inhibition strategies for polysaccharide cleaving enzymes. Mannose, a common carbohydrate building block, is present in a wide variety of complex polysaccharides including energy storage polymers and glycans attached to proteins. The enzymes that degrade these mannose-rich polymers, termed mannosidases, are important in biofuel production and human health and disease. This project will study a range of mannosidases to chemically and st ....Breaking it down: Dissecting the mechanism and exploring new inhibition strategies for polysaccharide cleaving enzymes. Mannose, a common carbohydrate building block, is present in a wide variety of complex polysaccharides including energy storage polymers and glycans attached to proteins. The enzymes that degrade these mannose-rich polymers, termed mannosidases, are important in biofuel production and human health and disease. This project will study a range of mannosidases to chemically and structurally define their mechanisms and establish strategies to allow intervention in mannosidase-specific disease processes. This work will inform strategies to engineer new enzymes for future biotechnology and industrial applications including sustainable chemical manufacturing, and underpin the development of innovative drugs for treating fungal infections and cancer.Read moreRead less
Extending the frontiers of organocatalysis: new reactions involving nucleophilic carbenes. High technology solutions to the problems of today and tomorrow require new materials designed for specific activities. This project will deliver new technologies for the rapid and efficient assembly of materials designed for function.