Polymerization Mechanism and Kinetics of 1,1-Disubstituted Monomers. This project focuses on two exciting research areas: (I) we have found that an oxygen atom b to the double bond activates radical polymerization, making a whole new family of polymeric structures accessible, and (II) we have strong preliminary data that demonstrates a very large solvent effect on propagation and termination reactions for acrylic monomers with an a-CH2OH functionality, suggesting that significant control can be ....Polymerization Mechanism and Kinetics of 1,1-Disubstituted Monomers. This project focuses on two exciting research areas: (I) we have found that an oxygen atom b to the double bond activates radical polymerization, making a whole new family of polymeric structures accessible, and (II) we have strong preliminary data that demonstrates a very large solvent effect on propagation and termination reactions for acrylic monomers with an a-CH2OH functionality, suggesting that significant control can be exerted over the polymerization process using additives. Additionally, we demonstrate that polymers containing repeat units with an a-CH2OH functionality can undergo reversible cyclization, enabling a whole range of novel functional materials.Read moreRead less
Mechanisms in Catalytic Chain Transfer Polymerization. The aim of the proposed research is to gain more insight into the mechanisms underlying catalytic chain transfer polymerization, a relatively recent controlled radical polymerization technique which is finding an increasing number of industrial applications, especially in the paint and coatings industry. An improved understanding of the catalytic chain transfer process, of which some very important features are still poorly understood, will ....Mechanisms in Catalytic Chain Transfer Polymerization. The aim of the proposed research is to gain more insight into the mechanisms underlying catalytic chain transfer polymerization, a relatively recent controlled radical polymerization technique which is finding an increasing number of industrial applications, especially in the paint and coatings industry. An improved understanding of the catalytic chain transfer process, of which some very important features are still poorly understood, will ultimately lead to better catalyst design and improved process and product control. This in turn will lead to novel polymeric materials.Read moreRead less
Novel Drug Delivery Systems. The polymer based structures targeted for production in this project will bring unique capabilities to the field of drug delivery. A multi-drug delivery platform is expected to bring significant improvements in administering therapeutic drugs for a wide range of illnesses and applications. This will have profound effects on the quality of life for those suffering from epilepsy or requiring stent implants. Here we will demonstrate the capabilities of these novel polym ....Novel Drug Delivery Systems. The polymer based structures targeted for production in this project will bring unique capabilities to the field of drug delivery. A multi-drug delivery platform is expected to bring significant improvements in administering therapeutic drugs for a wide range of illnesses and applications. This will have profound effects on the quality of life for those suffering from epilepsy or requiring stent implants. Here we will demonstrate the capabilities of these novel polymer structures both in-vitro and in-vivo.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
Synthesis of nanocomposite polymers with targeted properties. This project aims to synthesise novel nanocomposite polymers by living radical polymerisation in water and to understand the way polymer microstructure and nanomorphology control material properties. This will provide the enabling science so that nanomaterials with targeted properties can be tailor-made for biomedical and speciality-coatings applications, and thus dispense with the current trial-and-error methodology. The innovations ....Synthesis of nanocomposite polymers with targeted properties. This project aims to synthesise novel nanocomposite polymers by living radical polymerisation in water and to understand the way polymer microstructure and nanomorphology control material properties. This will provide the enabling science so that nanomaterials with targeted properties can be tailor-made for biomedical and speciality-coatings applications, and thus dispense with the current trial-and-error methodology. The innovations in this project are the novel synthesis of complex polymer architectures in water, and the first quantitative and qualitative structure-property correlations for such materials. This will also result in a deepened understanding of the mechanisms governing the formation of these nanocomposites.Read moreRead less
Functionalised nanostructured polythiophenes: novel platforms for bionics. The nanostructured organic polymer materials targeted for production in this project will bring unique capabilities to the field of muscle regeneration. A multi-modal stimulation platform is expected to bring significant improvements in muscle cell growth. This will have profound effects on the quality of life for those suffering from neuromuscular disorders or other traumas that require muscle regeneration. This project ....Functionalised nanostructured polythiophenes: novel platforms for bionics. The nanostructured organic polymer materials targeted for production in this project will bring unique capabilities to the field of muscle regeneration. A multi-modal stimulation platform is expected to bring significant improvements in muscle cell growth. This will have profound effects on the quality of life for those suffering from neuromuscular disorders or other traumas that require muscle regeneration. This project will demonstrate the capabilities of these nanostructures in-vitro.Read moreRead less
Degradable hollow microspheres for liver cancer treatment. The expected outcome of this multidisciplinary approach is a controlled drug delivery system for the treatment of liver cancer. We aim to increase the understanding of drug release using polymeric microspheres and the influence of the polymer properties on the release kinetics resulting in the tailored drug release for liver cancer treatment. An indepth knowledge in drug delivery can lead to optimised release kinetics leding to an increa ....Degradable hollow microspheres for liver cancer treatment. The expected outcome of this multidisciplinary approach is a controlled drug delivery system for the treatment of liver cancer. We aim to increase the understanding of drug release using polymeric microspheres and the influence of the polymer properties on the release kinetics resulting in the tailored drug release for liver cancer treatment. An indepth knowledge in drug delivery can lead to optimised release kinetics leding to an increased patient convenience and life prolonging treatments.Read moreRead less
Synthesis of stimuli-responsive star polymers for controlled drug delivery. The project aims to prepare novel star polymers suitable for drug delivery via controlled radical polymerization techniques. Such star polymers can be employed to release drugs within the human body in a controlled manner over time and are thus able to target specific sites, i.e. a tumor. The release characterisitics are be influenced by the structure and the size of the star polymer, which can easily be altered via cont ....Synthesis of stimuli-responsive star polymers for controlled drug delivery. The project aims to prepare novel star polymers suitable for drug delivery via controlled radical polymerization techniques. Such star polymers can be employed to release drugs within the human body in a controlled manner over time and are thus able to target specific sites, i.e. a tumor. The release characterisitics are be influenced by the structure and the size of the star polymer, which can easily be altered via controlled radical polymerization techniques. These novel stars are expected to improve the release kinetics of the drug comparing to similar structured micelles due to their higher stability upon injection.Read moreRead less
Novel barrier products: synthesis design using controlled radical polymerization in dispersed systems. Personal barrier products (eg surgical and industrial rubber gloves) are currently manufactured using emulsion polymerization synthesis methods that have evolved little in 50 years. A dramatic new method for controlling polymer architecture, developed by a team led by the CI and Dulux for paints, also has the potential to tailor-make barrier products, from less hazardous raw materials. This pro ....Novel barrier products: synthesis design using controlled radical polymerization in dispersed systems. Personal barrier products (eg surgical and industrial rubber gloves) are currently manufactured using emulsion polymerization synthesis methods that have evolved little in 50 years. A dramatic new method for controlling polymer architecture, developed by a team led by the CI and Dulux for paints, also has the potential to tailor-make barrier products, from less hazardous raw materials. This project commences the fundamental research for understanding the mechanisms involved in using this method with butadiene, and the mechanical properties of the resulting novel block copolymers. This science would later be applied by the industrial partner to significantly improve their barrier products.Read moreRead less