Metal catalysed reactions in organic synthesis. The major aim of this project is to develop highly efficient metal-catalysed routes to pharmaceuticals, e.g. new antibiotics and other commercially important organic molecules.
Particular attention will be paid to developing systems which facilitate the addition of readily available, cheap small molecules, e.g. hydrogen and carbon monoxide, to unsaturated organic molecules with high regio- and stereoselectivity.
Worldwide demand for enantiomeric ....Metal catalysed reactions in organic synthesis. The major aim of this project is to develop highly efficient metal-catalysed routes to pharmaceuticals, e.g. new antibiotics and other commercially important organic molecules.
Particular attention will be paid to developing systems which facilitate the addition of readily available, cheap small molecules, e.g. hydrogen and carbon monoxide, to unsaturated organic molecules with high regio- and stereoselectivity.
Worldwide demand for enantiomerically pure chiral molecules (i.e. one mirror-image form) continues to rise. New metal-catalysed asymmetric syntheses will help meet this challenge. Tandem metal-catalysed reactions will be used to prepare new heterocyclic compounds with potential as specific metal binding agents and biosensors.Read moreRead less
Biomimetic and Methodology Based Total Synthesis of Bioactive Natural Products. The proposal will study the synthesis of novel natural products that possess biological activities. Most significantly, this project will deliver compounds with anticancer activity. In addition, chemistry may be developed which could be utilised to synthesise a number of bioactive molecules. The rewards of the synthesis of compounds and application for the treatment of cancer and other diseases are enormous for the ....Biomimetic and Methodology Based Total Synthesis of Bioactive Natural Products. The proposal will study the synthesis of novel natural products that possess biological activities. Most significantly, this project will deliver compounds with anticancer activity. In addition, chemistry may be developed which could be utilised to synthesise a number of bioactive molecules. The rewards of the synthesis of compounds and application for the treatment of cancer and other diseases are enormous for the community and in the education and training of scientists.Read moreRead less
Total Synthesis of Novel Metabolites form Microorganisms. The main aim of this proposal is to achieve the chemical synthesis of a number of biologically active novel natural products isolated from microorganisms. This will involve the development of new methods as well as improvement on exisiting approaches developed so far. The targets will include the myxobacteria metabolites crocacins A, B and D and apicularen A, the streptomyces metabolites reveromycin A and spirofungin A and the fungal meta ....Total Synthesis of Novel Metabolites form Microorganisms. The main aim of this proposal is to achieve the chemical synthesis of a number of biologically active novel natural products isolated from microorganisms. This will involve the development of new methods as well as improvement on exisiting approaches developed so far. The targets will include the myxobacteria metabolites crocacins A, B and D and apicularen A, the streptomyces metabolites reveromycin A and spirofungin A and the fungal metabolite zaragozic acid C.
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Synthesis of Bioactive Metabolites from Myxobacteria. The crocacins and apicularens are two diverse groups of biologically active molecules isolated from myxobacteria. Crocacins A-D are dipeptides which show antifungal activity and are highly cytostatic in mammalian cell cultures. The novel macrolide apicularen A is highly active against a number of human tumour cell lines and shows promise as a new type of anticancer compound. The aim of this project is develop a methodology to synthesise these ....Synthesis of Bioactive Metabolites from Myxobacteria. The crocacins and apicularens are two diverse groups of biologically active molecules isolated from myxobacteria. Crocacins A-D are dipeptides which show antifungal activity and are highly cytostatic in mammalian cell cultures. The novel macrolide apicularen A is highly active against a number of human tumour cell lines and shows promise as a new type of anticancer compound. The aim of this project is develop a methodology to synthesise these novel compounds.Read moreRead less
Functional polymeric nanopores from cyclic peptide templates. This research programme will develop nanotubes prepared through the self-assembly of cyclic peptide/polymer conjugates into functional devices for applications as nanopores. The project will establish the fundamental knowledge required to develop these materials into nanoporous polymeric films and transmembrane channels. The research programme will establish new synthetic routes to the conjugates, ascertain the technique of assembly i ....Functional polymeric nanopores from cyclic peptide templates. This research programme will develop nanotubes prepared through the self-assembly of cyclic peptide/polymer conjugates into functional devices for applications as nanopores. The project will establish the fundamental knowledge required to develop these materials into nanoporous polymeric films and transmembrane channels. The research programme will establish new synthetic routes to the conjugates, ascertain the technique of assembly into nanotubes, with a particular focus on improving the precision with which we achieve structural control, and explore the use of the nanotubes to design nanopores, for applications in the manufacture of nanoporous materials, as antibiotic agents and as biosensors.Read moreRead less
Novel organic materials for efficient low-cost solar cells. Finding sources of renewable energy is the greatest challenge faced by mankind in the coming decades. Solar energy has the potential to provide a large fraction of the world's energy needs. The successful development of a solar technology capable of large scale energy production will reduce our dependence on non-renewable energy sources, such as fossil fuels, leading to the reduction of greenhouse gas emissions and a sustainable envir ....Novel organic materials for efficient low-cost solar cells. Finding sources of renewable energy is the greatest challenge faced by mankind in the coming decades. Solar energy has the potential to provide a large fraction of the world's energy needs. The successful development of a solar technology capable of large scale energy production will reduce our dependence on non-renewable energy sources, such as fossil fuels, leading to the reduction of greenhouse gas emissions and a sustainable environment. The harnessing of solar energy involves a number of frontier technologies that will enhance Australia's strengths in research and innovation. There is also potential for the creation of a world-class industry in solar energy that has both economic and environmental benefits.Read moreRead less
Novel Lanthanide Complexes and Polymeric Luminescent Chelates for Biomedical Imaging and Bioassay. The development of advanced materials and frontier technologies such as the luminescent chelates proposed here is essential for Australia's evolution as a competitive nation in fields such as biomedical imaging and clinical diagnostics. For example, the total expenditure on fluorescent reagents in 2004 exceeded US$1.5 billion, with an estimated 25% annual growth. With proven applications in diagnos ....Novel Lanthanide Complexes and Polymeric Luminescent Chelates for Biomedical Imaging and Bioassay. The development of advanced materials and frontier technologies such as the luminescent chelates proposed here is essential for Australia's evolution as a competitive nation in fields such as biomedical imaging and clinical diagnostics. For example, the total expenditure on fluorescent reagents in 2004 exceeded US$1.5 billion, with an estimated 25% annual growth. With proven applications in diagnostic immunoassay and high throughput screening, the use of luminescent lanthanide complexes allows significant improvements over traditional fluorophores, facilitating miniaturisation and ultimately leading to reduced costs for the consumer.Read moreRead less
Immobilised Lipid Chromatography for Membrane Protein Isolation and Analysis. Current techniques for membrane protein are inadequate for the emerging proteomic challenge, in which approximately 40% of proteins are predicted to be membrane associated. The aim of this proposal is to develop a new approach to purify membrane proteins using our recently-developed immobilised membrane chromatography materials. The present proposal will provide a new high-resolution separation technique that allows is ....Immobilised Lipid Chromatography for Membrane Protein Isolation and Analysis. Current techniques for membrane protein are inadequate for the emerging proteomic challenge, in which approximately 40% of proteins are predicted to be membrane associated. The aim of this proposal is to develop a new approach to purify membrane proteins using our recently-developed immobilised membrane chromatography materials. The present proposal will provide a new high-resolution separation technique that allows isolation and on-line mass analysis of complex mixtures of membrane proteins for subsequent proteomic analysis, high-throughput screening or structural studies and could form the basis for further development of new commercial tools for membrane protein analysis.Read moreRead less
New Electron Field Emission Films Based on Aligned Carbon Nanotube Guests in Liquid Crystalline Polymer Hosts. This project seeks to develop a new class of electron field emitting nanocomposite consisting of nanotubes in liquid crystalline polymers. Electron emitting materials are in much demand in x-ray and microwave generation, computer displays and low-energy lighting. We utilise the ready alignability of liquid crystalline units in magnetic fields to cause realignment of incorporated carbon ....New Electron Field Emission Films Based on Aligned Carbon Nanotube Guests in Liquid Crystalline Polymer Hosts. This project seeks to develop a new class of electron field emitting nanocomposite consisting of nanotubes in liquid crystalline polymers. Electron emitting materials are in much demand in x-ray and microwave generation, computer displays and low-energy lighting. We utilise the ready alignability of liquid crystalline units in magnetic fields to cause realignment of incorporated carbon nanotubes, followed by polymer solidification to maintain orientation. It involves low temperature processing, contrasting very favourably with current problematic, high temperature processes. This allows materials to be cast on flexible polymer substrates, potentially enabling construction of cathode tubes to replace existing mercury-containing fluorescent lighting.Read moreRead less
Hydrogen atom abstraction and addition via proton coupled electron transfer. To prepare new chemicals for the challenges of today, and those in the future, new ways to build materials are needed. These need to deliver maximum complexity (necessary for increasingly sophisticated applications) with minimal economic and environmental cost. In this proposal a family of reactions that are possible using light mediated chemistry will be developed. This approach will allow technologies to be discovered ....Hydrogen atom abstraction and addition via proton coupled electron transfer. To prepare new chemicals for the challenges of today, and those in the future, new ways to build materials are needed. These need to deliver maximum complexity (necessary for increasingly sophisticated applications) with minimal economic and environmental cost. In this proposal a family of reactions that are possible using light mediated chemistry will be developed. This approach will allow technologies to be discovered that will enhance the scientific communities ability to deliver materials designed for a wide array of functions from medicinal chemistry, through to materials science. Read moreRead less