Novel Nanofibre-Templated Nanotubes Prepared by Using ABA Block Copolymers. The aim of this project is to prepare new, highly functional nanomaterials using layer-by-layer assembly of polyelectrolytes on a three-dimensional template. Using this approach, a core-shell fibre is initially prepared by alternate deposition of oppositely charged materials onto an electrospun fibre template. The initial fibre can then be dissolved to give hollow nanotubes. New block copolymers, incorporating both charg ....Novel Nanofibre-Templated Nanotubes Prepared by Using ABA Block Copolymers. The aim of this project is to prepare new, highly functional nanomaterials using layer-by-layer assembly of polyelectrolytes on a three-dimensional template. Using this approach, a core-shell fibre is initially prepared by alternate deposition of oppositely charged materials onto an electrospun fibre template. The initial fibre can then be dissolved to give hollow nanotubes. New block copolymers, incorporating both charged and uncharged domains, will be used in the assembly, in order to design tubes with novel properties. The behaviour of these tubes under a variety of pH and solvent conditions will then be examined, and the tubes characterized using various microscopy techniques.Read moreRead less
Development of Novel Detergents for Green Solvent Systems and Their Self-Assembly into Nanostructures. Successful outcomes from this collaborative project will lead to the development of new commercially viable green solvent systems for the chemical industry, e.g. dry cleaning. This has the potential to impact the community on the economic and environmental level, by significantly reducing the costs of current green solvent systems, resulting in greater likelihood of conventional toxic solvent ....Development of Novel Detergents for Green Solvent Systems and Their Self-Assembly into Nanostructures. Successful outcomes from this collaborative project will lead to the development of new commercially viable green solvent systems for the chemical industry, e.g. dry cleaning. This has the potential to impact the community on the economic and environmental level, by significantly reducing the costs of current green solvent systems, resulting in greater likelihood of conventional toxic solvents being replaced. The project will also expand the training of junior and early career scientists by allowing them to work in overseas laboratories.Read moreRead less
Development of a test bed for molecular memory and molecular photovoltaic devices. The development of nanostructured materials and the devices that utilize them is at the forefront of modern science and technology. Electrical devices whose functional units are structurally ordered single molecules dominate biochemical processes, especially pertinent ones being photosynthesis and cellular energy production; artificial devices promise new technologies in multi-$B markets such as long-term data st ....Development of a test bed for molecular memory and molecular photovoltaic devices. The development of nanostructured materials and the devices that utilize them is at the forefront of modern science and technology. Electrical devices whose functional units are structurally ordered single molecules dominate biochemical processes, especially pertinent ones being photosynthesis and cellular energy production; artificial devices promise new technologies in multi-$B markets such as long-term data storage and renewable solar-energy production. Interfacing molecules with macroscopic interconnects poses a great technological challenge, however, and in this project the underlying basic science will be determined through the formation of molecules into device-accessible functional materials.Read moreRead less
Advanced nanoparticle stabilisation and functionalisation: small particles with huge potential. Australia is strongly investing in nanotechnology and through the governments priority goals 'Frontier Technologies for Building and Transforming Australian Industries' it has been recognised as an important area for investment. This proposal will help develop an internationally recognised nano-industry. It is envisaged that the particles made during this work will have direct implications for the pub ....Advanced nanoparticle stabilisation and functionalisation: small particles with huge potential. Australia is strongly investing in nanotechnology and through the governments priority goals 'Frontier Technologies for Building and Transforming Australian Industries' it has been recognised as an important area for investment. This proposal will help develop an internationally recognised nano-industry. It is envisaged that the particles made during this work will have direct implications for the public - creating a new class of medical diagnostic particles with better resolution and specificity. These particles have the potential to diagnose patients more precisely and at an earlier stage than is currently available. Additionally, these particles could be designed to load drugs and hence could be used to treat diseases such as cancer.Read moreRead less
Inhibitors of enzymes in the lysine biosynthetic pathway. Recent reports of increasing bacterial resistance to antibiotics highlight the need for continual development of new antibacterial agents. Inhibitors of the biosynthesis of the amino acid lysine - an essential component of bacterial proteins and cell wall - may provide a novel class of antibiotics. This project describes investigations of the mechanism of the first two enzymes in the lysine biosynthetic pathway and the design and synthesi ....Inhibitors of enzymes in the lysine biosynthetic pathway. Recent reports of increasing bacterial resistance to antibiotics highlight the need for continual development of new antibacterial agents. Inhibitors of the biosynthesis of the amino acid lysine - an essential component of bacterial proteins and cell wall - may provide a novel class of antibiotics. This project describes investigations of the mechanism of the first two enzymes in the lysine biosynthetic pathway and the design and synthesis of inhibitors of these enzymes.Read moreRead less
Polymer nanoobjects functionalized by polymer brushes: preparation, organization and integration in devices. The proposed project targets the collaboration between two leading research teams. The University of Marburg is leading in the area of the preparation of nanoobjects, while the research team at CAMD (UNSW) focuses on the preparation of well-controlled polymer structures via RAFT polymerisation. The combined strength of both groups seeks to improve the properties of nanodevices by the atta ....Polymer nanoobjects functionalized by polymer brushes: preparation, organization and integration in devices. The proposed project targets the collaboration between two leading research teams. The University of Marburg is leading in the area of the preparation of nanoobjects, while the research team at CAMD (UNSW) focuses on the preparation of well-controlled polymer structures via RAFT polymerisation. The combined strength of both groups seeks to improve the properties of nanodevices by the attachment of well-defined polymer layers. We expect therefore an optimum scientific output with both groups focusing on their research potency next to being able to access new knowledge. The visit to the German research group enables the Australian researchers access to a leading team in nanotechnology.Read moreRead less
Living Free Radical Polymerization for Nano Technology Applications. The proposed linkage project centres on a series of core projects from both the Australian and German collaborators. These core projects range from the synthesis of multifunctional nano- and micro-sphere particles, block copolymer systems used as efficient vehicles for drug delivery purposes to polymer brushes for nano-wires. The collaborating teams will carry out joint research tasks in the above mentioned fields via the excha ....Living Free Radical Polymerization for Nano Technology Applications. The proposed linkage project centres on a series of core projects from both the Australian and German collaborators. These core projects range from the synthesis of multifunctional nano- and micro-sphere particles, block copolymer systems used as efficient vehicles for drug delivery purposes to polymer brushes for nano-wires. The collaborating teams will carry out joint research tasks in the above mentioned fields via the exchange of the CIs and PhD students. The project is planned for a duration of three years to ensure an in-depth approach to the proposed projects.Read moreRead less
Synthesis and Characterization of Novel Hybrid star polymers grown from carbohydrate clusters. The aim of the project is to make complex polymer architectures based on stars grown from sugar clusters. The star molecules are expected to have unique properties for transporting guest molecules in drug delivery systems. The outcome will be the development of totally biodegradable, non-toxic cluster/star structures capable of complexing to drugs. This is the first attempt to utilise these clusters ....Synthesis and Characterization of Novel Hybrid star polymers grown from carbohydrate clusters. The aim of the project is to make complex polymer architectures based on stars grown from sugar clusters. The star molecules are expected to have unique properties for transporting guest molecules in drug delivery systems. The outcome will be the development of totally biodegradable, non-toxic cluster/star structures capable of complexing to drugs. This is the first attempt to utilise these clusters, with sugar-based vinyl monomers for star synthesis.Read moreRead less
Branching in acrylic polymers: analysis and mechanistic understanding. Some polymers can be branched. This branching has major effects on the end-product performance of a polymer, for example in adhesives and the flexibility of rubbery materials. Full quantification of this branching (the lengths of branches and the rates of the processes that create them) has been impossible hitherto. Two new complementary techniques, a new analytical method developed by the applicant Fellow in Paris, and a new ....Branching in acrylic polymers: analysis and mechanistic understanding. Some polymers can be branched. This branching has major effects on the end-product performance of a polymer, for example in adhesives and the flexibility of rubbery materials. Full quantification of this branching (the lengths of branches and the rates of the processes that create them) has been impossible hitherto. Two new complementary techniques, a new analytical method developed by the applicant Fellow in Paris, and a new synthesis technique developed in Sydney, will be used as the platforms to devise the first means of determining this information and thus understanding and quantifying branching.Read moreRead less
Characterization of star nanogels by advanced transmission electron microscopy. This project will provide an excellent opportunity to combine research expertise from The Polymer Science Group at The University of Melbourne and The Polymer Morphology Group at North Carolina State University (NCSU) to develop and characterize novel star nanogels with unique macromolecular architectures. The success of the project will reveal the absolute structures of these molecules and the proposed studies are b ....Characterization of star nanogels by advanced transmission electron microscopy. This project will provide an excellent opportunity to combine research expertise from The Polymer Science Group at The University of Melbourne and The Polymer Morphology Group at North Carolina State University (NCSU) to develop and characterize novel star nanogels with unique macromolecular architectures. The success of the project will reveal the absolute structures of these molecules and the proposed studies are both intellectually challenging in the cutting-edge of leading research in the field and important to provide vital information for the design of new structures of these new materials for their application in many areas, such as drug delivery, new membrane formation, advance high density memory chips and possibly the next generation of automotive coating.Read moreRead less