Engineering Nanostructured Bio-inspired Products. New nanostructured products that draw on biology promise to revolutionise our lives and economy. Designer emulsions and self-assembling particles inspired by viruses are two such products that form the focus for this research programme. The constitutive behaviour of bio-molecular films that control emulsion performance will be characterised and linked to molecular properties and manufacturing conditions. A broad-based technology platform for t ....Engineering Nanostructured Bio-inspired Products. New nanostructured products that draw on biology promise to revolutionise our lives and economy. Designer emulsions and self-assembling particles inspired by viruses are two such products that form the focus for this research programme. The constitutive behaviour of bio-molecular films that control emulsion performance will be characterised and linked to molecular properties and manufacturing conditions. A broad-based technology platform for the in vitro creation of self-assembling biological nanoparticles will also be developed. Key outcomes will be valuable IPR and fundamental engineering science knowledge to ensure that the value chain for this class of products can deliver commercial outcomes.Read moreRead less
Forces in high salt concentrations: from mineral processing to proteins. The outcomes of this program will have significant contributions to the fundamental understanding of colloidal science, the study of particle suspensions. This project will help answer longstanding questions in the food, pharmaceutical and mining industries, two of which are primary industries for Australia. In these industries, innovative solutions can substantially improve productivity, increasing export potential and re ....Forces in high salt concentrations: from mineral processing to proteins. The outcomes of this program will have significant contributions to the fundamental understanding of colloidal science, the study of particle suspensions. This project will help answer longstanding questions in the food, pharmaceutical and mining industries, two of which are primary industries for Australia. In these industries, innovative solutions can substantially improve productivity, increasing export potential and reducing the environmental impact. The outcomes of this work, in the form of high impact papers and conference presentations, will continue to build and enhance Australia's international research reputation and in time engage industries to transfer and commercialization of the present fundamental study.Read moreRead less
Microfluidic Studies of Stimuli-Responsive Emulsions. Breakthrough 'stimuli-responsive interface technology' has been developed in Australia to allow better control over emulsions, which are oil-in-water mixtures used widely in everyday products such as medicines. This project will increase our understanding of this new technology, by examining how the chemistry of the molecules at the interface interacts with fluid behaviour when the emulsion is made. The research will employ miniature lab-on-a ....Microfluidic Studies of Stimuli-Responsive Emulsions. Breakthrough 'stimuli-responsive interface technology' has been developed in Australia to allow better control over emulsions, which are oil-in-water mixtures used widely in everyday products such as medicines. This project will increase our understanding of this new technology, by examining how the chemistry of the molecules at the interface interacts with fluid behaviour when the emulsion is made. The research will employ miniature lab-on-a-chip systems, to give engineers and scientists design rules for this new technology, opening the way to new products that will improve our everyday lives. One immediate product to be researched is 'precision' double emulsions, which show unique properties for the delivery of chemotherapy medicines.Read moreRead less