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
The recovery of Cu from chalcopyrite-pyrite containing concentrates, ores and tailings. Chalcopyrite, a major source of Cu, is often associated in ores with the valueless mineral pyrite. The development of more efficient methods for the retrieval of the Cu is of considerable economic importance to Australian minerals processing companies. We aim to develop methodologies allowing the more efficient :
- separation of chalcopyrite and pyrite;
- leaching of Cu from ores and tailing in a heap leach ....The recovery of Cu from chalcopyrite-pyrite containing concentrates, ores and tailings. Chalcopyrite, a major source of Cu, is often associated in ores with the valueless mineral pyrite. The development of more efficient methods for the retrieval of the Cu is of considerable economic importance to Australian minerals processing companies. We aim to develop methodologies allowing the more efficient :
- separation of chalcopyrite and pyrite;
- leaching of Cu from ores and tailing in a heap leach environment and
- leaching of Cu in a concentrated chalcopyrite-pyrite reactor environment.
These aims will be achieved via an integrated surface-solution speciation approach allowing the manipulation of surface properties.
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Conformationally constrained and immobilized beta-peptides. The research builds on world-class expertise in Australia (particularly Adelaide) in proteomics to provide a basis for fundamental advances in chemistry that will underpin the development of new pharmaceuticals and smart materials, and future technologies and industries. We create a mix of research at the interface of disciplines within academia and industry, with linkages to the very best international researchers and centres. A new cr ....Conformationally constrained and immobilized beta-peptides. The research builds on world-class expertise in Australia (particularly Adelaide) in proteomics to provide a basis for fundamental advances in chemistry that will underpin the development of new pharmaceuticals and smart materials, and future technologies and industries. We create a mix of research at the interface of disciplines within academia and industry, with linkages to the very best international researchers and centres. A new critical mass of expertise in a number of advancing areas of chemistry, biology, and materials science will be introduced to Australia. This will enhance existing strengths and opportunities in proteomics and biomedical research for the treatment of disease.Read moreRead less
Preparation and properties of oligo- and polycyclophanes. Materials with advanced optical and electronic properties. This project aims to prepare a novel class of organic and organometallic material that has both theoretical and practical applications. Nanotechnology requires unique arrangements of atoms that can give rise to enhanced macroscopic properties and we have embarked on a project that will provide new oligomers and polymers for the construction of the next generation of optical and el ....Preparation and properties of oligo- and polycyclophanes. Materials with advanced optical and electronic properties. This project aims to prepare a novel class of organic and organometallic material that has both theoretical and practical applications. Nanotechnology requires unique arrangements of atoms that can give rise to enhanced macroscopic properties and we have embarked on a project that will provide new oligomers and polymers for the construction of the next generation of optical and electronic devices.Read moreRead less
Electron transfer in proteins, a study of mechanism and function. Our research will probe the mechanisms by which nature's living systems build, maintain, and reproduce. We present an ability to understand these processes at a detailed molecular level using science and technology at the forefront of multidisciplinary research. The research will provide a foundation for new smart materials, technologies and future industries, and also ways forward for future basic scientific research and endeavo ....Electron transfer in proteins, a study of mechanism and function. Our research will probe the mechanisms by which nature's living systems build, maintain, and reproduce. We present an ability to understand these processes at a detailed molecular level using science and technology at the forefront of multidisciplinary research. The research will provide a foundation for new smart materials, technologies and future industries, and also ways forward for future basic scientific research and endeavor. All this is done with the best international researchers and capabilities within a local environment that will help to train the next generation of Australian scientists.Read moreRead less
Mimicking peptide structure - towards an aqueous environment. In this proposal we develop a fundamental understanding of the balance between 'weak' and 'strong' forces to define the properties of peptides and proteins. This will allow the design of new biological probes and materials with tailor-made chemical and physical properties for use in bioengineering, biotechnology, proteomics, and drug design. One such example is the design and preparation of a new chemical agent for the non-surgical tr ....Mimicking peptide structure - towards an aqueous environment. In this proposal we develop a fundamental understanding of the balance between 'weak' and 'strong' forces to define the properties of peptides and proteins. This will allow the design of new biological probes and materials with tailor-made chemical and physical properties for use in bioengineering, biotechnology, proteomics, and drug design. One such example is the design and preparation of a new chemical agent for the non-surgical treatment for cataract, the major cause of blindness world-wide.Read moreRead less
New Methodology for the Stereoselective Construction of Oxygen Heterocycles and Rare Sugar Analogues. The overall goal of this research is to develop new synthetic methods, particularly ones that exhibit high levels of stereocontrol. Current research efforts are directed towards the stereoselective construction of oxygen heterocycles and rare sugar analogues both in their racemic and chiral forms utilising 1,2-dioxines containing tethered hydroxyl moieties as the key chemical precursors. It is e ....New Methodology for the Stereoselective Construction of Oxygen Heterocycles and Rare Sugar Analogues. The overall goal of this research is to develop new synthetic methods, particularly ones that exhibit high levels of stereocontrol. Current research efforts are directed towards the stereoselective construction of oxygen heterocycles and rare sugar analogues both in their racemic and chiral forms utilising 1,2-dioxines containing tethered hydroxyl moieties as the key chemical precursors. It is envisaged that these investigations will lead to the development of simple experimental protocols for the synthesis of new bioactive organics.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0453743
Funder
Australian Research Council
Funding Amount
$237,654.00
Summary
Advanced Materials Laser Characterisation Facility. A networked laser facility spanning the University of Melbourne, Monash University, the University of Adelaide, and Flinders University, will be created by integrating new laser instrumentation with existing specialised infrastructure. The facility will provide chemists at the four institutions with the necessary equipment to collaboratively investigate and optimise the properties of a diverse array of advanced materials, including nanoparticle ....Advanced Materials Laser Characterisation Facility. A networked laser facility spanning the University of Melbourne, Monash University, the University of Adelaide, and Flinders University, will be created by integrating new laser instrumentation with existing specialised infrastructure. The facility will provide chemists at the four institutions with the necessary equipment to collaboratively investigate and optimise the properties of a diverse array of advanced materials, including nanoparticles, polymers, biomaterials, and artificial photosynthetic systems. The outcome will be a world-class research network, outfitted with a suite of sophisticated techniques that are not currently available at any single university, or through any other Australian institution or consortium.Read moreRead less