Folding and dynamics of bioengineered cyclic cystine knot proteins. This project will increase knowledge of the structure and function of an important family of proteins, namely the conotoxins. Conotoxins are of particular interest in Australia as nearly 300 species of cone snails occur in Australian waters and they represent a rich source of novel peptides for drug discovery. This project will enhance their stability by altering their structures and will have a direct impact on peptide-drug ba ....Folding and dynamics of bioengineered cyclic cystine knot proteins. This project will increase knowledge of the structure and function of an important family of proteins, namely the conotoxins. Conotoxins are of particular interest in Australia as nearly 300 species of cone snails occur in Australian waters and they represent a rich source of novel peptides for drug discovery. This project will enhance their stability by altering their structures and will have a direct impact on peptide-drug based therapies, resulting in economic and social benefits for Australian society. Additionally, some peptides under study have agricultural significance for crop protection and this too, has the potential to provide significant economic benefits. Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668038
Funder
Australian Research Council
Funding Amount
$175,000.00
Summary
From Fundamentals to Complex Architecture in Free-Radical Polymerisation: Designing Future Generations of Macromolecular Materials. This research will help maintain the profile of Australia as a serious player in the important field of polymer chemistry. It will lay the groundwork for the preparation of novel materials of commercial value. These materials will enable more effective use of Australia's natural resources, support the development of high value-added Australian manufacturing industri ....From Fundamentals to Complex Architecture in Free-Radical Polymerisation: Designing Future Generations of Macromolecular Materials. This research will help maintain the profile of Australia as a serious player in the important field of polymer chemistry. It will lay the groundwork for the preparation of novel materials of commercial value. These materials will enable more effective use of Australia's natural resources, support the development of high value-added Australian manufacturing industries, and find application in human and animal medicine. They will enhance the health and well-being of the Australian community and engender a sense of wonder in susceptible members of this community.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0453637
Funder
Australian Research Council
Funding Amount
$256,804.00
Summary
Multi-dimensional polymer characterization facility. The microstructure of polymers dominates their physical properties. This integrated facility will create a world-leading means of characterizing in multiple dimensions the microstructure of complex polymers, eg copolymers and branched polymers. The facility will yield information on the distributions of chain end-groups, monomer microstructure, and branches, as functions of molecular weight. The facility will provide otherwise unobtainable dat ....Multi-dimensional polymer characterization facility. The microstructure of polymers dominates their physical properties. This integrated facility will create a world-leading means of characterizing in multiple dimensions the microstructure of complex polymers, eg copolymers and branched polymers. The facility will yield information on the distributions of chain end-groups, monomer microstructure, and branches, as functions of molecular weight. The facility will provide otherwise unobtainable data for a set of projects exploring questions ranging from how new synthetic materials with tailor-made properties can be created, through to how our understanding of natural polymers can be advanced to improve crop utilization.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0211003
Funder
Australian Research Council
Funding Amount
$125,000.00
Summary
A Facility for Probing Nanostructure in Polymers. The properties of a polymer are only partly determined by its molecular structure. It is now clear that the organization of molecular structure and phase morphology on a nano-scale has an equally important role in determining material behaviour. Increasingly this can be manipulated by judicious choice of formulation and processing variables. The polymer Nano-Structure Facility will bring together Australia's principal polymer experts in this a ....A Facility for Probing Nanostructure in Polymers. The properties of a polymer are only partly determined by its molecular structure. It is now clear that the organization of molecular structure and phase morphology on a nano-scale has an equally important role in determining material behaviour. Increasingly this can be manipulated by judicious choice of formulation and processing variables. The polymer Nano-Structure Facility will bring together Australia's principal polymer experts in this area of structure-property relations and provide them with shared access to the appropriate, modern analytical tools required to probe the nano-structure of such new materials with enhanced properties.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668517
Funder
Australian Research Council
Funding Amount
$220,000.00
Summary
Hyphenated techniques in polymer science and engineering. The collaborator's research capabilities will be greatly enhanced because the equipment will allow simultaneous measurements of various properties which can provide much more information than sequential experiments. Students will be able to undertake research with state-of-the-art equipment which will enhance their research careers and employment prospects. The resulting information will be invaluable to the development of polymer blends ....Hyphenated techniques in polymer science and engineering. The collaborator's research capabilities will be greatly enhanced because the equipment will allow simultaneous measurements of various properties which can provide much more information than sequential experiments. Students will be able to undertake research with state-of-the-art equipment which will enhance their research careers and employment prospects. The resulting information will be invaluable to the development of polymer blends with optimized morphology and mechanical properties; improved polymer processing techniques linked to how the structure and orientation develops; the development of new materials, including novel human tissue implants, from studies of the rheology and phase structure of a polymer during photopolymerization.Read moreRead less
New Fluorescent Probes to Elucidate Complex Oxidation Mechanisms. From medicine to manufacturing, polymers ("plastics") are a major component in the materials we use in our modern society, yet the manner by which they degrade and break down is often not well understood. Controlling the lifetime of polymers by either accelerating degradation on the one hand or preventing, or limiting, it on the other, will have significant benefits to society but this can only be achieved by reaching a thorough u ....New Fluorescent Probes to Elucidate Complex Oxidation Mechanisms. From medicine to manufacturing, polymers ("plastics") are a major component in the materials we use in our modern society, yet the manner by which they degrade and break down is often not well understood. Controlling the lifetime of polymers by either accelerating degradation on the one hand or preventing, or limiting, it on the other, will have significant benefits to society but this can only be achieved by reaching a thorough understanding of the degradation process. This project makes use of a unique, Australian-designed additive which stabilises polymeric materials, provides a marker for degradation levels and also provides information about the nature of the degradation processes occurring within polymers.Read moreRead less