Development of Novel Detergents for Green Solvent Systems and Their Self-Assembly into Nanostructures. Successful outcomes from this collaborative project will lead to the development of new commercially viable green solvent systems for the chemical industry, e.g. dry cleaning. This has the potential to impact the community on the economic and environmental level, by significantly reducing the costs of current green solvent systems, resulting in greater likelihood of conventional toxic solvent ....Development of Novel Detergents for Green Solvent Systems and Their Self-Assembly into Nanostructures. Successful outcomes from this collaborative project will lead to the development of new commercially viable green solvent systems for the chemical industry, e.g. dry cleaning. This has the potential to impact the community on the economic and environmental level, by significantly reducing the costs of current green solvent systems, resulting in greater likelihood of conventional toxic solvents being replaced. The project will also expand the training of junior and early career scientists by allowing them to work in overseas laboratories.Read moreRead less
Synthesis and Performance of Novel Polymer Resists for 193 nm Immersion Lithography. The semiconductor industry is one of the largest world-wide, with annual revenue of $217B and employing over 1.5M people around the world. This project provides a unique opportunity for development within Australia of significant expertise in the field of polymers for short-wavelength lithography. The materials to be developed are expected to provide the basis of future genertions of microchips. In addition the ....Synthesis and Performance of Novel Polymer Resists for 193 nm Immersion Lithography. The semiconductor industry is one of the largest world-wide, with annual revenue of $217B and employing over 1.5M people around the world. This project provides a unique opportunity for development within Australia of significant expertise in the field of polymers for short-wavelength lithography. The materials to be developed are expected to provide the basis of future genertions of microchips. In addition the materials have applications in other technologies which are manufactured in Australia, for example in spectactle lenses and optical fibres. A major outcome of this project will be establishment of Australia as a world-leader in this rapidly expanding field.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668038
Funder
Australian Research Council
Funding Amount
$175,000.00
Summary
From Fundamentals to Complex Architecture in Free-Radical Polymerisation: Designing Future Generations of Macromolecular Materials. This research will help maintain the profile of Australia as a serious player in the important field of polymer chemistry. It will lay the groundwork for the preparation of novel materials of commercial value. These materials will enable more effective use of Australia's natural resources, support the development of high value-added Australian manufacturing industri ....From Fundamentals to Complex Architecture in Free-Radical Polymerisation: Designing Future Generations of Macromolecular Materials. This research will help maintain the profile of Australia as a serious player in the important field of polymer chemistry. It will lay the groundwork for the preparation of novel materials of commercial value. These materials will enable more effective use of Australia's natural resources, support the development of high value-added Australian manufacturing industries, and find application in human and animal medicine. They will enhance the health and well-being of the Australian community and engender a sense of wonder in susceptible members of this community.Read moreRead less
Synthesis and Characterisation of Encoded Hybrid Polymer/Gold Nanoparticles for Application in Bioassays. Bioassays are the cornerstone of in vitro diagnostic and biomedical research. This proposal will significantly contribute to these areas, by targeting an emerging technology that is crucial for their future development. The hybrid nanoparticles described in this project have the potential to replace conventional detection strategies that are currently used for bioassays. In doing so, they sh ....Synthesis and Characterisation of Encoded Hybrid Polymer/Gold Nanoparticles for Application in Bioassays. Bioassays are the cornerstone of in vitro diagnostic and biomedical research. This proposal will significantly contribute to these areas, by targeting an emerging technology that is crucial for their future development. The hybrid nanoparticles described in this project have the potential to replace conventional detection strategies that are currently used for bioassays. In doing so, they should provide significant advantages over conventional detection strategies. These advantages include increased sample throughput and conservation of biological samples, which makes possible the acceleration of patient diagnosis and drug discovery. Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0561169
Funder
Australian Research Council
Funding Amount
$188,000.00
Summary
Facility for multidimensional fractionation of complex biological mixtures. Acquisition of multidimensional fractionation equipment will allow researchers to separate proteins from complex mixtures, and to compare whole protein profiles of multiple samples. This will permit correlation of specific protein changes associated with infection or disease, a major focus of post-genomic programs of research. The equipment will also provide identification of the key differentiating proteins using mini ....Facility for multidimensional fractionation of complex biological mixtures. Acquisition of multidimensional fractionation equipment will allow researchers to separate proteins from complex mixtures, and to compare whole protein profiles of multiple samples. This will permit correlation of specific protein changes associated with infection or disease, a major focus of post-genomic programs of research. The equipment will also provide identification of the key differentiating proteins using minimal material. Numerous world-class projects and researchers will be able to move more rapidly and reliably from crude cell extracts to identifiable markers, and maintain their competitive positions the recognition of key targets in drug design, disease diagnosis and vaccine development.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE130100141
Funder
Australian Research Council
Funding Amount
$310,000.00
Summary
High resolution nuclear magnetic resonance spectroscopy for glycomics, metabonomics and soft materials applications. This project will enhance the nuclear magnetic resonance spectroscopy capabilities and the world class research being undertaken at the Institute for Glycomics, Griffith University and Queensland University of Technology. This powerful technique can contribute information in diverse research areas such as glycomics, metabonomics and soft materials research.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE170100023
Funder
Australian Research Council
Funding Amount
$650,000.00
Summary
Australian high field electron paramagnetic resonance facility. This project aims to establish Australia’s first a high-field (3 T, 94 GHz) high-field pulse electron paramagnetic resonance (EPR) facility. EPR is a powerful technique to study chemical, biological and materials systems. It represents a sensitive, non-invasive, site-selective spectroscopy for the analysis of both molecular and macroscopic properties. This facility will allow the further development and implementation of new multidi ....Australian high field electron paramagnetic resonance facility. This project aims to establish Australia’s first a high-field (3 T, 94 GHz) high-field pulse electron paramagnetic resonance (EPR) facility. EPR is a powerful technique to study chemical, biological and materials systems. It represents a sensitive, non-invasive, site-selective spectroscopy for the analysis of both molecular and macroscopic properties. This facility will allow the further development and implementation of new multidimensional pulse EPR techniques, enabling domestic and international collaborations with diverse applications in structural biology, solvation science and catalysis.Read moreRead less