New materials for manipulating intracellular communication. This project aims to identify new techniques for incorporating cell-signalling triggers into macromolecules, therefore enabling the development of next-generation stimuli-responsive nanoparticles that can emit signalling molecules on demand. Harnessing nanomaterials to stimulate specific sub-cellular processes is a neglected area in nanotechnology research. These nanoparticles could potentially be used to deliver signalling molecules fo ....New materials for manipulating intracellular communication. This project aims to identify new techniques for incorporating cell-signalling triggers into macromolecules, therefore enabling the development of next-generation stimuli-responsive nanoparticles that can emit signalling molecules on demand. Harnessing nanomaterials to stimulate specific sub-cellular processes is a neglected area in nanotechnology research. These nanoparticles could potentially be used to deliver signalling molecules for agricultural, pharmaceutical and veterinary applications. The project is expected to develop a new suite of materials that could ultimately be used to improve the yield of important commercial crops, or revitalise the use of medicines limited by their poor side effect profile.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE100100149
Funder
Australian Research Council
Funding Amount
$500,000.00
Summary
Spectroscopic imaging for materials, minerals and life sciences. The spectroscopic imaging equipment highlighted in this proposal will produce a number of outcomes of national benefit. First, it will elevate the impact of research in materials, minerals, and life sciences in Australia, all of which are key areas for the national economy and community. Second, the equipment will be integral to the teaching and research nexus and experiential learning facility for a new wave of materials science ....Spectroscopic imaging for materials, minerals and life sciences. The spectroscopic imaging equipment highlighted in this proposal will produce a number of outcomes of national benefit. First, it will elevate the impact of research in materials, minerals, and life sciences in Australia, all of which are key areas for the national economy and community. Second, the equipment will be integral to the teaching and research nexus and experiential learning facility for a new wave of materials science and engineering students to be educated at UniSA in the EIF-funded M2 building at Mawson Lakes. Finally, the anticipated outcomes of the research to be supported are significant and relate clearly to a number of National Research Priorities.Read moreRead less