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Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0989474
Funder
Australian Research Council
Funding Amount
$200,000.00
Summary
Organic Synthesis and Reaction Processing Facility. Chemical synthesis is not only an important activity in its own right but one that provides compounds required in biology and physics. This enterprise is thus pivotal to many activities associated with a modern economy. Accordingly, it is vital to maintain a cutting-edge capacity in synthetic organic chemistry. The requested equipment will be assembled to create a state-of-the-art facility serving the needs of some sixty researchers engaged in ....Organic Synthesis and Reaction Processing Facility. Chemical synthesis is not only an important activity in its own right but one that provides compounds required in biology and physics. This enterprise is thus pivotal to many activities associated with a modern economy. Accordingly, it is vital to maintain a cutting-edge capacity in synthetic organic chemistry. The requested equipment will be assembled to create a state-of-the-art facility serving the needs of some sixty researchers engaged in diverse aspects of organic synthesis including those associated with the development of new antibiotics, drug delivery systems and molecular machines.Read moreRead less
Enhanced biocatalysis in organic solvents for pharmaceutical biotransformation. Enzymes such as hydrolases play an important role in biotechnology because of their extreme versatility with respect to substrate specificity and stereoselectivity. The use of lipases as catalysts for optical isomer-specific organic reactions is often limited by unacceptably low enantioselectivities. We will investigate recombinant enzymes cloned from thermophilic lipolytic bacteria for synthetic reactions in orga ....Enhanced biocatalysis in organic solvents for pharmaceutical biotransformation. Enzymes such as hydrolases play an important role in biotechnology because of their extreme versatility with respect to substrate specificity and stereoselectivity. The use of lipases as catalysts for optical isomer-specific organic reactions is often limited by unacceptably low enantioselectivities. We will investigate recombinant enzymes cloned from thermophilic lipolytic bacteria for synthetic reactions in organic solvents, especially chiral resolution of mixtures in the production of pharmaceutical intermediates. Genetic improvement of lipase enantiospecificity and regioselectivity will be achieved using in vitro evolution by recombination and screening. The outcome will be cost-effective production superior biocatalysts with specifically enhanced regiospecific, enantioselective and hydrolytic characteristics.
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Non-invasive diagnosis using micropatches that sample biomarkers from skin. We are developing a technology called the micropatch that is laid onto the surface of the skin. When the patch is pulled away, it retains proteins found in the subsurface skin layers. We believe that by analysing these proteins we will be able to diagnose diseases like cancer earlier and therefore have a better chance of treating them successfully. The process is painless, and doctors already use it to give drugs and vac ....Non-invasive diagnosis using micropatches that sample biomarkers from skin. We are developing a technology called the micropatch that is laid onto the surface of the skin. When the patch is pulled away, it retains proteins found in the subsurface skin layers. We believe that by analysing these proteins we will be able to diagnose diseases like cancer earlier and therefore have a better chance of treating them successfully. The process is painless, and doctors already use it to give drugs and vaccines. In the future we hope that our technology will be simple enough for routine diagnosis, even in the Outback where doctors are hundreds of kilometres awayRead moreRead less
Experimental and Theoretical Studies of Vanadium Oxide Nanostructures and Their Functional Properties. This project is primarily devoted to material science and nanotechnology, one of the cutting-edge areas in Australia's National Research Priority. Successful completion of this project will result in controlled synthesis, functional assembly and fundamental understanding of vanadium oxide nanostructures. The research findings will be useful for developing new and complex nanostructures for func ....Experimental and Theoretical Studies of Vanadium Oxide Nanostructures and Their Functional Properties. This project is primarily devoted to material science and nanotechnology, one of the cutting-edge areas in Australia's National Research Priority. Successful completion of this project will result in controlled synthesis, functional assembly and fundamental understanding of vanadium oxide nanostructures. The research findings will be useful for developing new and complex nanostructures for functional applications in lithium ionic batteries, catalysts and gas sensors. The conduct of this project will significantly expand the knowledge creativity of Australia in research in advanced materials.Read moreRead less
Supramolecular Assemblies as Nanoscale Devices to Control Chemical and Physical Processes. The aims of this project are: i) to develop molecular reaction vessels to enhance the rates and control the outcomes of chemical processes; ii) to design and construct supramolecular species with a range of topologies; and iii) to explore the potential use of these supramolecular assemblies as thermal and photochemical switches and molecular tweezers, and as the basis for molecular machines and microelectr ....Supramolecular Assemblies as Nanoscale Devices to Control Chemical and Physical Processes. The aims of this project are: i) to develop molecular reaction vessels to enhance the rates and control the outcomes of chemical processes; ii) to design and construct supramolecular species with a range of topologies; and iii) to explore the potential use of these supramolecular assemblies as thermal and photochemical switches and molecular tweezers, and as the basis for molecular machines and microelectronic devices. The research is expected to provide new and efficient methods for bench-top and industrial scale synthesis of chemicals in water, as well as fundamental advances in nanotechnology to underpin new industries based on advanced materials.Read moreRead less
Organometallic Transformations of Organic Molecules. Simple hydrocarbons such as natural gas and petroleum are amongst the most abundant and readily available natural feedstocks for the organic chemical industry. However, apart from simply burning them for fuel, there are very few methods for using these materials as starting materials for industry. In chemical terms, simple hydrocarbons are very stable and this makes them difficult substances to convert cleanly to other more useful compounds. ....Organometallic Transformations of Organic Molecules. Simple hydrocarbons such as natural gas and petroleum are amongst the most abundant and readily available natural feedstocks for the organic chemical industry. However, apart from simply burning them for fuel, there are very few methods for using these materials as starting materials for industry. In chemical terms, simple hydrocarbons are very stable and this makes them difficult substances to convert cleanly to other more useful compounds. This research program investigates new approaches for converting hydrocarbons to more useful materials by using metals such as iron and ruthenium. This research program will provide a new route to ?value-added? products from hydrocarbons and develop new uses for these abundant raw materials.Read moreRead less
Asymmetric Synthesis and Biological Evaluation of Bioactive Alkaloids and their Analogues. We propose to develop innovative methods for preparing bioactive natural products and their analogues with potential applications as new and safer therapeutic drugs and agricultural chemicals. This project would make important scientific contributions to the advancement of the fundamentals of synthetic organic chemistry and contribute to Australia's development as a knowledge-based economy. The methodolo ....Asymmetric Synthesis and Biological Evaluation of Bioactive Alkaloids and their Analogues. We propose to develop innovative methods for preparing bioactive natural products and their analogues with potential applications as new and safer therapeutic drugs and agricultural chemicals. This project would make important scientific contributions to the advancement of the fundamentals of synthetic organic chemistry and contribute to Australia's development as a knowledge-based economy. The methodology and products developed may have potential pharmaceutical and agricultural applications from which the country could benefit from in the future. This project would help developed skilled people that may develop innovative outcomes in the future, especially in the developing pharmaceutical and biotechnology industries in Australia.Read moreRead less
Stereoselective Synthesis of Bioactive Alkaloids for Structure Elucidation and Drug Discovery. It is proposed to develop innovative methods for preparing bioactive natural products and their analogues with potential applications as new and safer therapeutic drugs and agricultural chemicals. This project would make important scientific contributions to the advancement of the fundamentals of synthetic organic chemistry and contribute to Australia's development as a knowledge-based economy. The m ....Stereoselective Synthesis of Bioactive Alkaloids for Structure Elucidation and Drug Discovery. It is proposed to develop innovative methods for preparing bioactive natural products and their analogues with potential applications as new and safer therapeutic drugs and agricultural chemicals. This project would make important scientific contributions to the advancement of the fundamentals of synthetic organic chemistry and contribute to Australia's development as a knowledge-based economy. The methodology and products developed are likely to have potential pharmaceutical and agricultural applications from which the country could benefit in the future. This project will train skilled people who may develop innovative outcomes in the future, especially in the developing pharmaceutical and biotechnology industries in Australia.Read moreRead less
Large Scale Production of Stemona Alkaloids for Agricultural Applications and New Drug Discovery. The Stemona alkaloids form a large group of natural products that have significant potential as agricultural and pharmaceutical drugs. Extracts of these natural products have many applications in traditional medicine and as insecticides in Asia. We propose to develop innovative methods for the large scale production and synthesis of these bioactive alkaloids. The methodology and products developed ....Large Scale Production of Stemona Alkaloids for Agricultural Applications and New Drug Discovery. The Stemona alkaloids form a large group of natural products that have significant potential as agricultural and pharmaceutical drugs. Extracts of these natural products have many applications in traditional medicine and as insecticides in Asia. We propose to develop innovative methods for the large scale production and synthesis of these bioactive alkaloids. The methodology and products developed may have potential pharmaceutical and agricultural applications from which the country could benefit in the future. This project would help develop skilled people who may produce innovative outcomes in the future, especially in the developing pharmaceutical and biotechnology industries in Australia.Read moreRead less
Polyanionic carbon ligands in metal complexes as new reagents in organometallic and inorganic chemistry. The proposed research will benefit Australia by creating a knowledge base in an internationally important area of chemistry. It addresses fundamental questions in organometallic chemistry that will be of great significance for chemical synthesis as well as for a greater understanding of structure and bonding. Through an integrated and interdisciplinary approach, the exploitation of technologi ....Polyanionic carbon ligands in metal complexes as new reagents in organometallic and inorganic chemistry. The proposed research will benefit Australia by creating a knowledge base in an internationally important area of chemistry. It addresses fundamental questions in organometallic chemistry that will be of great significance for chemical synthesis as well as for a greater understanding of structure and bonding. Through an integrated and interdisciplinary approach, the exploitation of technologies arising from this research programme will be explored. In addition to the academic community, these technologies will benefit hi-tech industries including pharmaceutical and fine chemical concerns which will gain from the use of polymetalated carbon species in organic and inorganic synthesis, catalysis and the development of new materials.Read moreRead less