Low Fouling Hollow Fibre Membranes. The aim is to obtain hydrophilic water-filtration membranes. This is important as making the filtrations more hydrophilic reduces fouling. We expect the outcome to be a new type of water filtration membrane with improved properties over existing commercial membranes.
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
Multivalent drug delivery carrier for the targeted delivery of platinum anticancer agents to hepatocytes. Hepatocellular carcinoma (HCC) is often treated with chemotherapy using cytotoxic drugs. This systemic treatment results in the distribution of the drug throughout the body. Employing a polymer particle as a drug carrier for these drugs ensures a temporal control of the release and therefore supply of the drug within the body. By attaching carbohydrate moieties onto the surface of the polyme ....Multivalent drug delivery carrier for the targeted delivery of platinum anticancer agents to hepatocytes. Hepatocellular carcinoma (HCC) is often treated with chemotherapy using cytotoxic drugs. This systemic treatment results in the distribution of the drug throughout the body. Employing a polymer particle as a drug carrier for these drugs ensures a temporal control of the release and therefore supply of the drug within the body. By attaching carbohydrate moieties onto the surface of the polymer particle the drug carrier can specifically be recognized by cell receptors, thus allowing a targeted delivery of the drug to the desired area in the body. A range of carbohydrate-based drug carriers will be synthesized and tested towards their interaction with hepatocytes to allow optimisation of this drug carrier system.
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Design of Novel Polymer Micro-Porous Coatings. This project utilises unique polymer structures that self-organise into highly-ordered polymer films. These polymer films have arrays of pores with pore diameters on the micron scale. These films are suitable for high-technology membranes applications, in for instance, biosensors.
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
New-generation starch-based paper coatings. This project is to make a new hybrid biomaterial which encapsulates starch in a synthetic polymer latex for use in paper manufacture. A novel process has been devised for this by the parties. This project is the fundamental research and development needed to turn successful preliminary experiments into commercial reality; it involves a unique combination of cereal and polymer scientists and paper technologists. The product has the potential to set up a ....New-generation starch-based paper coatings. This project is to make a new hybrid biomaterial which encapsulates starch in a synthetic polymer latex for use in paper manufacture. A novel process has been devised for this by the parties. This project is the fundamental research and development needed to turn successful preliminary experiments into commercial reality; it involves a unique combination of cereal and polymer scientists and paper technologists. The product has the potential to set up a new industry to use starch from Australian cereal grains to replace imports and create new markets, as well as reducing environmental problems from paper manufacture.Read moreRead less
Core-shell nanoparticle from polymers with pendant cyclodextrins. A better drug delivery system will be developed for the treatment of cancer with albendazole. These nanoparticles enhance the circulation time in the body, but also facilitate the delivery of the drug to the site of the tumour, which will increase the efficacy of the treatment. The nanoparticles are obtained by processing polymers with pendant cyclodextrin groups, which are a type of complex sugars. Aim of this work is the explora ....Core-shell nanoparticle from polymers with pendant cyclodextrins. A better drug delivery system will be developed for the treatment of cancer with albendazole. These nanoparticles enhance the circulation time in the body, but also facilitate the delivery of the drug to the site of the tumour, which will increase the efficacy of the treatment. The nanoparticles are obtained by processing polymers with pendant cyclodextrin groups, which are a type of complex sugars. Aim of this work is the exploration of synthetic routes to generate nanoparticles. Tailoring the underpinning polymer structure of these nanoparticles will allow the optimisation of the release of albendazole from the drug carrier, thus improving cancer treatment.Read moreRead less
Platinum drugs containing core-shell nanoparticles. Many drugs such as cancer drugs contain metal ions. While the therapeutic benefits of metal containing drugs are highly promising, their administration is often accompanied by substantial side effects. Encapsulation of these drugs into nano-sized core-shell particles will prolong the circulation of the drug and therefore reduce the amount of repeated administrations. In addition, the shape and nature of the particle will enable the targeted del ....Platinum drugs containing core-shell nanoparticles. Many drugs such as cancer drugs contain metal ions. While the therapeutic benefits of metal containing drugs are highly promising, their administration is often accompanied by substantial side effects. Encapsulation of these drugs into nano-sized core-shell particles will prolong the circulation of the drug and therefore reduce the amount of repeated administrations. In addition, the shape and nature of the particle will enable the targeted delivery of these drug loaded nanocarriers to the tumor while healthy tissue remains unaffected. Read moreRead less