Patterned assemblies of molecules on surfaces. Because of their redox and photophysical properties, artificial porphyrin systems have been designed for applications such as light-harvesting antennae, catalysts and sensors. Control of molecular orientation is required in order to construct practical devices, and in this project methods of assembling porphyrins on surfaces in well-defined patterns will be developed. Sophisticated methods will be used to characterise the films produced in these w ....Patterned assemblies of molecules on surfaces. Because of their redox and photophysical properties, artificial porphyrin systems have been designed for applications such as light-harvesting antennae, catalysts and sensors. Control of molecular orientation is required in order to construct practical devices, and in this project methods of assembling porphyrins on surfaces in well-defined patterns will be developed. Sophisticated methods will be used to characterise the films produced in these ways, in order to provide the information necessary to refine procedures and design new molecules suitable for advanced applications. Expected outcomes are new methods and architectures that can ultimately yield devices that act at the molecular level.Read moreRead less
Theoretical and computational approaches to accurately predict the structures of a unique family of circular and knotted proteins. The primary outcome will be a fundamental new knowledge on cyclotide structures and a new protein engineering method to design stabilised proteins. Because cyclotides have significantly higher stabilities than conventional proteins, they have a range of pharmaceutical and agricultural applications. Both fields of use have the potential for very great economic and soc ....Theoretical and computational approaches to accurately predict the structures of a unique family of circular and knotted proteins. The primary outcome will be a fundamental new knowledge on cyclotide structures and a new protein engineering method to design stabilised proteins. Because cyclotides have significantly higher stabilities than conventional proteins, they have a range of pharmaceutical and agricultural applications. Both fields of use have the potential for very great economic and social benefits for Australia. From a pharmaceutical perspective our computing development will greatly facilitate the design of stabilised peptide-based drugs using the cyclotide framework. Such drugs have potential sales of several billion dollars per annum and the royalty returns from successful commercialisation of IP can be substantial.Read moreRead less
Microspheres from (Sun)Light – A Sustainable Materials Platform. This project will break new ground in light-induced step-growth precipitation polymerisation techniques for polymer particle formation that do not require any initiator, surfactants, additives or heating, thus constituting an environmentally friendly process. The project will establish the underpinning photochemical particle formation processes and establish a broad monomer base for the production of particles with a wide property ....Microspheres from (Sun)Light – A Sustainable Materials Platform. This project will break new ground in light-induced step-growth precipitation polymerisation techniques for polymer particle formation that do not require any initiator, surfactants, additives or heating, thus constituting an environmentally friendly process. The project will establish the underpinning photochemical particle formation processes and establish a broad monomer base for the production of particles with a wide property profile, including particles with tailored surface properties and the ability to degrade upon a defined trigger signal. Scaling the particles' synthesis, including using Australian sunlight, will enable multi-gram production allowing real-world applications.Read moreRead less
Integrating architectural, mathematical and computing knowledge to capture the dynamics of air in design. This research will bring together architectural, mathematical and computing knowledge to discover effective ways to design buildings and cities that are more responsive to the complex dynamics of air movement and temperature. This knowledge will lead to reduced energy consumption and carbon dioxide emissions, increased comfort and more usable public space.
Precision-Engineered Polymer Nanomaterials. Designing polymer nanoparticles that interact with or mimic biological systems represents a challenge in the field of polymer science. The project will address this challenge to deliver a quantitative and qualitative understanding linking synthetic materials and biological systems. Structurally perfect polymeric dendrimers, prepared using break through synthetic approaches and kinetic and computer modelling, are the ideal structure to introduce this fu ....Precision-Engineered Polymer Nanomaterials. Designing polymer nanoparticles that interact with or mimic biological systems represents a challenge in the field of polymer science. The project will address this challenge to deliver a quantitative and qualitative understanding linking synthetic materials and biological systems. Structurally perfect polymeric dendrimers, prepared using break through synthetic approaches and kinetic and computer modelling, are the ideal structure to introduce this function with predictable behaviour. The project will achieve tangible impacts for global communities and industries including the development of biomimetic nanodevices for smart drug delivery devices and peptide mimics.Read moreRead less
Protein Structure and Dynamics by Electron/Nuclear Paramagnetic Resonance. This interdisciplinary project aims to establish new magnetic resonance methods for the analysis of protein structure and motion at low concentrations and in physiological conditions that are otherwise difficult or impossible to study. It brings together four different research groups with expertise in advanced biochemistry, modern magnetic spectroscopy and high-performance computing. The project expects to develop tools ....Protein Structure and Dynamics by Electron/Nuclear Paramagnetic Resonance. This interdisciplinary project aims to establish new magnetic resonance methods for the analysis of protein structure and motion at low concentrations and in physiological conditions that are otherwise difficult or impossible to study. It brings together four different research groups with expertise in advanced biochemistry, modern magnetic spectroscopy and high-performance computing. The project expects to develop tools to study protein structure, protein-protein association and protein-ligand interactions of established drug-targets. Expected outcomes include new techniques that quickly inform how drugs work, providing significant benefits to many researchers studying biomolecules, and supporting Australia’s growing biotechnology sector. Read moreRead less
Demonstrating the feasibility of designing sustainable buildings using evolutionary systems. The design approach proposed in this research will result in two key areas of national benefit. First, the research will enable Australian built environment design professions to become more competitive in both domestic and international markets. There is a growing demand for environmentally-friendly buildings and the proposed design approach will enable Australian firms to be at the cutting edge of sust ....Demonstrating the feasibility of designing sustainable buildings using evolutionary systems. The design approach proposed in this research will result in two key areas of national benefit. First, the research will enable Australian built environment design professions to become more competitive in both domestic and international markets. There is a growing demand for environmentally-friendly buildings and the proposed design approach will enable Australian firms to be at the cutting edge of sustainable design. Second, the research will enable the Australian built environment to become more sustainable. The proposed approach will enable buildings to be designed that perform well, that are cost effective and that minimise their environmental impact. Read moreRead less
Designing distanced intergenerational interaction with tangible technology. Older people and their young relatives/grandchildren who are geographically distanced cannot currently experience closeness in tangible ways, which are the natural ways they would play and build relationships in “real” life. Enabling this connection would have positive impacts for both groups, and two types of technologies – Mixed Reality and Tangibles - can be explored to allow us to understand how to do this. We will d ....Designing distanced intergenerational interaction with tangible technology. Older people and their young relatives/grandchildren who are geographically distanced cannot currently experience closeness in tangible ways, which are the natural ways they would play and build relationships in “real” life. Enabling this connection would have positive impacts for both groups, and two types of technologies – Mixed Reality and Tangibles - can be explored to allow us to understand how to do this. We will develop approaches to distanced tangible intergenerational interaction which are designed specifically to increase intergenerational closeness and to be innovative and subtle so that they fit seamlessly into the lives of older people and young children.Read moreRead less
Sequence-Defined Polymers with Optical Information Readout. The project aim is to introduce the first optically readable sequence-defined polymers based on fluorophore excimers, whose information content can be read as simply as conventional barcodes. These macromolecular barcodes, embedded in solid polymer matrices, will overcome the current limitations of reading information from synthetic macromolecules. An interdisciplinary effort will fuse chemistry, law, and criminology to develop the tec ....Sequence-Defined Polymers with Optical Information Readout. The project aim is to introduce the first optically readable sequence-defined polymers based on fluorophore excimers, whose information content can be read as simply as conventional barcodes. These macromolecular barcodes, embedded in solid polymer matrices, will overcome the current limitations of reading information from synthetic macromolecules. An interdisciplinary effort will fuse chemistry, law, and criminology to develop the technology in ways that are expected to address illicit plastic waste trafficking – ending the anonymity of polymer waste by creating a regulatory and criminological paradigm for tracing plastic waste to hold actors in the value chain responsible.Read moreRead less
Facilitating intuitive interaction with complex devices for older users. Poorly designed interfaces impact more strongly on older people. Helping designers to make more intuitive interfaces for older community members has great potential for improving their lives and health, and thus benefiting the community generally. Making modern devices easier for older people to use will allow them to participate more fully in society and/or the workplace. This will also help to prevent them from becoming i ....Facilitating intuitive interaction with complex devices for older users. Poorly designed interfaces impact more strongly on older people. Helping designers to make more intuitive interfaces for older community members has great potential for improving their lives and health, and thus benefiting the community generally. Making modern devices easier for older people to use will allow them to participate more fully in society and/or the workplace. This will also help to prevent them from becoming isolated and possibly depressed. This project will apply intuitive interaction to healthcare devices that older people use, which can save costly mistakes and even lives.Read moreRead less