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Microreactors for Organic Synthesis. Since the electronic revolution, miniaturisation has been the trend for devices from consumer electronics to scientific instruments. In this time very little has changed in the manner, or scale, that synthetic organic chemistry has been carried out even though advances in instrumentation mean that less compound is required for identification and analysis. This project aims to bridge the gap by developing recyclable miniaturised reaction vessels for the format ....Microreactors for Organic Synthesis. Since the electronic revolution, miniaturisation has been the trend for devices from consumer electronics to scientific instruments. In this time very little has changed in the manner, or scale, that synthetic organic chemistry has been carried out even though advances in instrumentation mean that less compound is required for identification and analysis. This project aims to bridge the gap by developing recyclable miniaturised reaction vessels for the formation of organic compounds on a scale thousands of times smaller than it is currently done. These devices will have applications in drug discovery programmes due to higher throughput and increased efficiency while minimising waste.Read moreRead less
Generation of Novel Fermentation Products and their Exploitation in the Synthesis of Biologically Active Organic Compounds with Therapeutic Potential. Collections of new micro-organisms and their metabolites suitable for use in the chemical synthesis programs will emerge from the proposed research. This will provide a potentially highly-valuable national resource that could serve the needs of many laboratories around Australia by allowing them to establish more direct routes to target molecules ....Generation of Novel Fermentation Products and their Exploitation in the Synthesis of Biologically Active Organic Compounds with Therapeutic Potential. Collections of new micro-organisms and their metabolites suitable for use in the chemical synthesis programs will emerge from the proposed research. This will provide a potentially highly-valuable national resource that could serve the needs of many laboratories around Australia by allowing them to establish more direct routes to target molecules being sought in the development of new therapeutic agents and/or materials. The combined application of molecular biological, microbiological and chemical synthesis techniques in a concerted manner in the one location will lead to a raft of new opportunities for the biotech and pharmaceutical industries in Australia.Read moreRead less
Generation of Novel Fermentation Products and their Exploitation in the Synthesis of Biologically Active Organic Compounds with Therapeutic Potential. Collections of new micro-organisms and their metabolites suitable for use in the chemical synthesis programs will emerge from the proposed research. This will provide a potentially highly-valuable national resource that could serve the needs of many laboratories around Australia by allowing them to establish more direct routes to target molecules ....Generation of Novel Fermentation Products and their Exploitation in the Synthesis of Biologically Active Organic Compounds with Therapeutic Potential. Collections of new micro-organisms and their metabolites suitable for use in the chemical synthesis programs will emerge from the proposed research. This will provide a potentially highly-valuable national resource that could serve the needs of many laboratories around Australia by allowing them to establish more direct routes to target molecules being sought in the development of new therapeutic agents and/or materials. The combined application of molecular biological, microbiological and chemical synthesis techniques in a concerted manner in the one location will lead to a raft of new opportunities for the biotech and pharmaceutical industries in Australia. Read moreRead less
gem-Dihalogenocyclopropanes as building blocks for the chemical synthesis of biologically active natural products and their analogues. New and efficient methods for the assembly of biologically active compounds will emerge from this research and thus provide materials for evaluation as potential therapeutics in the treatment of a range of pathological conditions including Alzheimer's disease and certain types of lung cancers that respond poorly to currently available treatments. The underpinning ....gem-Dihalogenocyclopropanes as building blocks for the chemical synthesis of biologically active natural products and their analogues. New and efficient methods for the assembly of biologically active compounds will emerge from this research and thus provide materials for evaluation as potential therapeutics in the treatment of a range of pathological conditions including Alzheimer's disease and certain types of lung cancers that respond poorly to currently available treatments. The underpinning methodologies are also likely to provide opportunities in other areas, including materials science. The training of a highly capable post-doctoral in chemical synthesis, an area where there is now an extraordinary and unsatisfied demand for such expertise, will be a further benefit of the proposed program of research.Read moreRead less
Integrated approach to self assembled molecular capsules. Process intensification technologies in the form of spinning disc and rotating tube processing are new to Australia and present many opportunities for both carrying out the synthesis of organic compounds and in fabricating nanomaterials. The ensuing nanotechnological applications are more benign in approach then other fabrication techniques, minimising the generation of waste at the same time under continuous flow which is likely to be mo ....Integrated approach to self assembled molecular capsules. Process intensification technologies in the form of spinning disc and rotating tube processing are new to Australia and present many opportunities for both carrying out the synthesis of organic compounds and in fabricating nanomaterials. The ensuing nanotechnological applications are more benign in approach then other fabrication techniques, minimising the generation of waste at the same time under continuous flow which is likely to be more attractive to industry. Proposed applications such as drug delivery, catalysis, smart materials and device technology are expected to foster industrial collaborations. The project will provide first-rate research training and promote Australian science through the development of these new technologies.Read moreRead less
Integrated self assembly processes and spinning disc reactor technology. Spinning Disc Reactor technology is new to Australia and will have wide ranging applications in nano-technology and in developing benign industrial chemical processes with smaller footprint and significantly reduced capital outlay. The cutting edge research will foster collaboration with industry, and lead to establishing new industries in device technology, smart materials, health care products, catalysis and energy storag ....Integrated self assembly processes and spinning disc reactor technology. Spinning Disc Reactor technology is new to Australia and will have wide ranging applications in nano-technology and in developing benign industrial chemical processes with smaller footprint and significantly reduced capital outlay. The cutting edge research will foster collaboration with industry, and lead to establishing new industries in device technology, smart materials, health care products, catalysis and energy storage, through exploiting commercial opportunities. The project will provide excellent research training in a range of scientific skills and in professional development, and will involve overseas PhD exchange programs. The exciting research incorporating benign metrics will enhance public opinion towards science. Read moreRead less
Natural Product-derived Proteomics Probes for Specific Detection of Protein Kinase C Activities. Better health care depends on how well diseases are understood and how accurately disease analysis and diagnosis can be carried out. This is not only important to disease treatment but also prevention. This project will first generate new compounds that could have improved therapeutic value in cancer treatment. In addition, these compounds will be further engineered to provide a new technology of ....Natural Product-derived Proteomics Probes for Specific Detection of Protein Kinase C Activities. Better health care depends on how well diseases are understood and how accurately disease analysis and diagnosis can be carried out. This is not only important to disease treatment but also prevention. This project will first generate new compounds that could have improved therapeutic value in cancer treatment. In addition, these compounds will be further engineered to provide a new technology of tracing the molecular signature of diseases such as cancer for early detection and better preventative care and treatment. This will create new economic advantage and contributes to the transformation of Australian health care industry.Read moreRead less
Functionalised Chiral Building Blocks for New Photonic Materials. This project describes an approach to a new family of chiral liquid crystals and chiral liquid crystalline polymers for potential use in display technologies and as wave guides for fibre optic cables in the telecommunications industry. The compounds are based on a rigid chiral core with attached peripheral functional group handles that span a range of polarities and can be positioned at several locations. These new chiral buildi ....Functionalised Chiral Building Blocks for New Photonic Materials. This project describes an approach to a new family of chiral liquid crystals and chiral liquid crystalline polymers for potential use in display technologies and as wave guides for fibre optic cables in the telecommunications industry. The compounds are based on a rigid chiral core with attached peripheral functional group handles that span a range of polarities and can be positioned at several locations. These new chiral building blocks are anticipated to afford new materials whose properties can be tailored to specific applications following structure-property studies.Read moreRead less
Computational tools for organic synthesis. This project aims to develop new computer modelling techniques with the ability to rapidly identify efficient synthetic routes to target molecules. The barrier heights, reaction energies, and product selectivities of the individual steps in a multi-step synthesis are key factors determining its overall efficiency, and are traditionally determined empirically. Innovative tools for predicting these properties through computer simulations are the expected ....Computational tools for organic synthesis. This project aims to develop new computer modelling techniques with the ability to rapidly identify efficient synthetic routes to target molecules. The barrier heights, reaction energies, and product selectivities of the individual steps in a multi-step synthesis are key factors determining its overall efficiency, and are traditionally determined empirically. Innovative tools for predicting these properties through computer simulations are the expected outcomes of this project. These tools are anticipated to enable target molecules to be accessed more efficiently, with less expenditure of laboratory resources and a lower environmental impact, thereby contributing to an agile and sustainable chemical industry.Read moreRead less
Self-Assembly of Nanoscale Molecular Capsules. Nature uses the self-assembly of molecules for the construction of highly complex and functional structures. An understanding of this process will enable the design of new molecular systems, capable of application in areas that include medicine, electronics and communications. Such self-assembly will play a key role in the development of nanotechnology, a rapidly expanding field that is likely to become a major technology in the foreseeable future. ....Self-Assembly of Nanoscale Molecular Capsules. Nature uses the self-assembly of molecules for the construction of highly complex and functional structures. An understanding of this process will enable the design of new molecular systems, capable of application in areas that include medicine, electronics and communications. Such self-assembly will play a key role in the development of nanotechnology, a rapidly expanding field that is likely to become a major technology in the foreseeable future. It is of crucial importance for Australia to maintain cutting-edge research (and research training) in this area if the nation and its industries are to be active contributors to the coming revolution.Read moreRead less