A new molecular platform for catalytic synthesis of heterocycles. This project aims to address the lack of efficient methods to prepare cyclic molecules of biological relevance by utilising novel molecular platforms developed in our laboratories. This project expects to generate new cyclic molecules using these innovative molecular platforms by employing catalysts to reduce raw material and energy cost. The expected outcomes of this project include enhanced chemical technology to prepare cyclic ....A new molecular platform for catalytic synthesis of heterocycles. This project aims to address the lack of efficient methods to prepare cyclic molecules of biological relevance by utilising novel molecular platforms developed in our laboratories. This project expects to generate new cyclic molecules using these innovative molecular platforms by employing catalysts to reduce raw material and energy cost. The expected outcomes of this project include enhanced chemical technology to prepare cyclic molecules of pharmaceutical importance and the training of highly skilled PhD students. This should provide significant benefits, such as increased capacity for the development of new pharmaceuticals and advanced materials.Read moreRead less
Site-specific protein functionalisation at diselenides via photocatalysis . This project aims to develop a new photocatalytic reaction for the on demand functionalisation of proteins. The synthetic methodology will solve a major technological gap in the field by enabling efficient access to proteins with defined modifications at specific locations. Functionalised proteins generated in the project will underpin a detailed understanding of how specific modifications influence the structure and fun ....Site-specific protein functionalisation at diselenides via photocatalysis . This project aims to develop a new photocatalytic reaction for the on demand functionalisation of proteins. The synthetic methodology will solve a major technological gap in the field by enabling efficient access to proteins with defined modifications at specific locations. Functionalised proteins generated in the project will underpin a detailed understanding of how specific modifications influence the structure and function of several important proteins. The project will generate significant new knowledge in the fields of chemistry and biology and will foster interdisciplinary collaboration, nationally and internationally. The breakthrough technology also has the potential to benefit Australia’s biotechnology sector.Read moreRead less
Industrial Transformation Research Hubs - Grant ID: IH200100023
Funder
Australian Research Council
Funding Amount
$4,950,000.00
Summary
ARC Research Hub for Innovative Nitrogen Fertilisers and Inhibitors. This Hub aims to transform agriculture by delivering a new class of nitrogen (N) fertilisers and inhibitors designed to stem the 50-80% losses to the environment in current products. It is intended to generate new knowledge and valuable intellectual property in controlled released and coated N fertiliser products using a novel co-design process involving representatives of the whole value chain from product design through to va ....ARC Research Hub for Innovative Nitrogen Fertilisers and Inhibitors. This Hub aims to transform agriculture by delivering a new class of nitrogen (N) fertilisers and inhibitors designed to stem the 50-80% losses to the environment in current products. It is intended to generate new knowledge and valuable intellectual property in controlled released and coated N fertiliser products using a novel co-design process involving representatives of the whole value chain from product design through to validation and adoption. The project estimates possible 20% gains in efficiency of N use, delivering large costs savings, improved productivity, increased profitability and decreased environmental impacts, helping the Australian food and agribusiness sector to reach its 2030 target of $100B value added.Read moreRead less