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
Expanding the toolbox of synthetic stealth polymers. This project aims to develop a new generation of synthetic and biomimetic pseudo peptide polymers with advanced biomedical properties. The polymers will be used for the fabrication of a range of nanoparticles, which will allow to study the effect of architecture, composition and surface functionalisation on their behaviour in a biological environment. Carefully conducted structure-physicochemical property relationship and bio-nano interaction ....Expanding the toolbox of synthetic stealth polymers. This project aims to develop a new generation of synthetic and biomimetic pseudo peptide polymers with advanced biomedical properties. The polymers will be used for the fabrication of a range of nanoparticles, which will allow to study the effect of architecture, composition and surface functionalisation on their behaviour in a biological environment. Carefully conducted structure-physicochemical property relationship and bio-nano interaction studies will generate new knowledge in the area of stealth and protein repellent nanomaterials. The intended outcome of the project is the generation of a platform of bioinert materials that could potentially find applications as building blocks in next generation nanomedicines and medical devices.Read moreRead less
Chiral synthetic macromolecules - control of sequence and stereochemistry. This project aims to assemble a library of novel chiral polymers mimicking natural peptides with precisely controlled primary structures using emerging synthetic technologies. A systematic investigation of these synthetic materials will provide an in-depth understanding of how sequence and stereochemistry influence chemical and physical properties. Employing rational design principles, desired functionality could be optim ....Chiral synthetic macromolecules - control of sequence and stereochemistry. This project aims to assemble a library of novel chiral polymers mimicking natural peptides with precisely controlled primary structures using emerging synthetic technologies. A systematic investigation of these synthetic materials will provide an in-depth understanding of how sequence and stereochemistry influence chemical and physical properties. Employing rational design principles, desired functionality could be optimised through the selective modification of polymer structure. These materials should be able to emulate the unique properties and functionality of natural peptides/proteins, making them invaluable for biochemical applications, such as molecular recognition and asymmetric catalysis.Read moreRead less
Nanostructured anticorrosive coating for wave energy conversion module. The project will develop new high performance anticorrosion coatings for metal structures, such as a Waverider- a patented wave energy conversion module. It will deliver a strong intellectual property position in the frontier anti-corrosion technology to Australian Industry and train young scientists in the emerging and multidisciplinary field of research.