Ultra-low fouling active surfaces. This project aims to develop chemistries and fabrication approaches through innovative materials evaluation to develop ultra-low fouling active electrode surfaces. Development of ultra-low fouling surfaces will have significant impact in a range of applications where system or device failure is attributed to fouling. The growing field of bionics, where implantable electronic devices interface directly with the nervous system, is one such device. The expected ou ....Ultra-low fouling active surfaces. This project aims to develop chemistries and fabrication approaches through innovative materials evaluation to develop ultra-low fouling active electrode surfaces. Development of ultra-low fouling surfaces will have significant impact in a range of applications where system or device failure is attributed to fouling. The growing field of bionics, where implantable electronic devices interface directly with the nervous system, is one such device. The expected outcomes will be an understanding of the material requirements that lead to the elimination of protein and cell accumulation at surfaces that degrades the performance and lifetime of these implants. The findings will benefit any application where fouling is a problem.Read moreRead less
Harnessing lipid nano-assembly for next generation functional foods and pharmaceutical products. Nature assembles lipid molecules from our diet into useful structures in our gastrointestinal tract with remarkable precision and versatility. By understanding and harnessing these processes we can design new lipid-based nanomaterials leading to more effective functional foods and pharmaceutical products with reduced side effects.
Social outcomes, behaviour and emotional well-being of adults with autism. It is recognised that autism results in substantial life-long disability. Severe emotional and behavioural problems are likely to be a key factor in precluding adults with autism from work, independent living, social contact, and undermine their quality of life, thus increasing support needs. This project aims to address a major gap in our current knowledge - the association between severe emotional and behavioural proble ....Social outcomes, behaviour and emotional well-being of adults with autism. It is recognised that autism results in substantial life-long disability. Severe emotional and behavioural problems are likely to be a key factor in precluding adults with autism from work, independent living, social contact, and undermine their quality of life, thus increasing support needs. This project aims to address a major gap in our current knowledge - the association between severe emotional and behavioural problems in adults with autism and social outcomes. Identification of markers of adult outcomes aims to lead to an improved understanding of the pathways to better social outcomes, facilitating the development of specific interventions to provide much needed improvements in outcomes for adults with autism.Read moreRead less
Engineering the trafficking of nanoparticles within cells. This project aims to engineer responsive nanoparticles capable of trafficking efficiently within cells. The site of release of therapeutic cargo has importance for improving the efficacy of many treatments, for example vaccine delivery. Therefore fundamental understanding of how nanoparticle structure can be engineered to control cellular behaviour is necessary. The project will engineer new polymeric nanomaterials and investigate the im ....Engineering the trafficking of nanoparticles within cells. This project aims to engineer responsive nanoparticles capable of trafficking efficiently within cells. The site of release of therapeutic cargo has importance for improving the efficacy of many treatments, for example vaccine delivery. Therefore fundamental understanding of how nanoparticle structure can be engineered to control cellular behaviour is necessary. The project will engineer new polymeric nanomaterials and investigate the impact of their structure on biological properties. The benefits of this project will include new fundamental insights into improving nanoparticle design for vaccine delivery, as well as the expansion of Australia’s knowledge base in the area of biodegradable polymers.Read moreRead less
Development of nanoporous materials for capture and release of oxygen. This project aims to develop new materials to make lighter, more efficient oxygen concentrators. The project will combine materials that can capture oxygen with particles that can be magnetically heated, making it possible to release the oxygen rapidly and efficiently when needed. Expected outcomes from this project include new composite materials and better understanding of how gases are trapped and released within composite ....Development of nanoporous materials for capture and release of oxygen. This project aims to develop new materials to make lighter, more efficient oxygen concentrators. The project will combine materials that can capture oxygen with particles that can be magnetically heated, making it possible to release the oxygen rapidly and efficiently when needed. Expected outcomes from this project include new composite materials and better understanding of how gases are trapped and released within composite materials. Benefits from this project may include oxygen concentrators that are more portable and have longer battery life, both with industrial and medical applications.Read moreRead less
Corrosion triggered self-passivation of magnesium alloys . This project aims to sustainably protect magnesium alloys from aqueous corrosion in engineering services through an unprecedented self-passivation mechanism (analogues to stainless steel). This project is expected to generate new knowledge in the area of passivation mechanisms for magnesium alloys in corrosive environments through high-throughput screening and in-situ corrosion characterisation at atomic scale. This should provide signif ....Corrosion triggered self-passivation of magnesium alloys . This project aims to sustainably protect magnesium alloys from aqueous corrosion in engineering services through an unprecedented self-passivation mechanism (analogues to stainless steel). This project is expected to generate new knowledge in the area of passivation mechanisms for magnesium alloys in corrosive environments through high-throughput screening and in-situ corrosion characterisation at atomic scale. This should provide significant benefits, such as enabling the debut of a scientific strategy to transform the magnesium alloy market with respect to end use (such as electric car industry), energy composition and emissions, which has significant industrial interest as it will provide new opportunities to minimise carbon footprint.Read moreRead less
Carbon Molecular Sieve Membranes for Organic Solvent Separation. Directly addressing the pressing challenge of organic solvent separation faced by numerous industries, the project aims to develop molecular sieve membranes with outstanding selectivity and solvent tolerance by constructing zeolite-carbon mixed matrix membrane via incorporating zeolite nanosheets into carbon materials. The project expects to generate advanced knowledge of nanosheet synthesis, membrane fabrication and selective mole ....Carbon Molecular Sieve Membranes for Organic Solvent Separation. Directly addressing the pressing challenge of organic solvent separation faced by numerous industries, the project aims to develop molecular sieve membranes with outstanding selectivity and solvent tolerance by constructing zeolite-carbon mixed matrix membrane via incorporating zeolite nanosheets into carbon materials. The project expects to generate advanced knowledge of nanosheet synthesis, membrane fabrication and selective molecule transport. The membranes developed in the project have great potentials for improving the production capacity and sustainability of Australian industries, e.g., pharmaceutical manufacturing, bioethanol production and petroleum refining, providing significant economic and environmental benefits to Australia.Read moreRead less
Surface tension-confined microfluidics: moving towards a flexible platform for diagnostics. The point-of-care industry is poised to fulfil the international need for effective and mobile diagnostics tools; however current strategies are restricting this from becoming a reality. Surface tension-confined microfluidics provide an opportunity to meet the requirements necessary for flexible platform for point-of-care devices.
Pathogen sensing in systemic inflammatory disease. The initiation, amplification and quenching of an immune response is a carefully orchestrated process that eliminates invading pathogens while minimising collateral damage to host tissues. This research focuses on proteins that restrict immune responses to prevent inflammatory diseases such as rheumatoid arthritis, psoriasis and inflammatory bowel disease. This work will also explore the role of a potassium channel that protects the host from or ....Pathogen sensing in systemic inflammatory disease. The initiation, amplification and quenching of an immune response is a carefully orchestrated process that eliminates invading pathogens while minimising collateral damage to host tissues. This research focuses on proteins that restrict immune responses to prevent inflammatory diseases such as rheumatoid arthritis, psoriasis and inflammatory bowel disease. This work will also explore the role of a potassium channel that protects the host from organ failure during an infection, by coupling the energy requirements of mounting an immune response, and organ function. This may have important implications for the management of sepsis, a systemic immune response associated with infection and the leading cause of death in critically ill patients.Read moreRead less
Advanced micro-architecture and nanotopography for enhanced tissue growth in scaffolds. Tissue engineering scaffolds offer an urgently needed synthetic biomaterials solution to overcome disease transmission from donor transplants. This work will combine biomaterial chemistry and designed surface topography to trigger bone formation within a scaffold for the first time in the world. Collaboration with national research leaders on stem cell and animal testing of the new scaffolds will provide the ....Advanced micro-architecture and nanotopography for enhanced tissue growth in scaffolds. Tissue engineering scaffolds offer an urgently needed synthetic biomaterials solution to overcome disease transmission from donor transplants. This work will combine biomaterial chemistry and designed surface topography to trigger bone formation within a scaffold for the first time in the world. Collaboration with national research leaders on stem cell and animal testing of the new scaffolds will provide the necessary interdisciplinary approach to generate a new product for patients in need of bone regeneration. Australia will benefit from the contribution to medical science, the development of a new device for rapid prototyping tissue engineering scaffolds, retain biomaterials research expertise, and generate new biomedical products.Read moreRead less