Template-Free Synthesis of Zeolite Nanocrystals and Their Application for Zeolite-Polymer Nanocomposites. A novel method is proposed for template-free synthesis of zeolite nanocrystals, in which polymer hydrogels will be used, in-situ, to control zeolite nucleation and growth from precursor solutions. The as-synthesised and surface modified zeolite nanocrystals will be used to fabricate zeolite-polymer nanocomposites, which will have significant applications in areas including gas separation, ca ....Template-Free Synthesis of Zeolite Nanocrystals and Their Application for Zeolite-Polymer Nanocomposites. A novel method is proposed for template-free synthesis of zeolite nanocrystals, in which polymer hydrogels will be used, in-situ, to control zeolite nucleation and growth from precursor solutions. The as-synthesised and surface modified zeolite nanocrystals will be used to fabricate zeolite-polymer nanocomposites, which will have significant applications in areas including gas separation, catalysts and fuel cells.Read moreRead less
Drug Delivery Devices : Hydrogels manufactured utilising Dense Gas Technologies. Many drugs are rapidly eliminated from the human body, and would benefit from being released over a long period of time. In this study, formulations to deliver drugs will be developed, using hydrogels: highly cross-linked, water saturated polymers. The polymers to be investigated are based on ingredients suitable for ingestion. Hydrogels are in common use as external therapeutic devices, such as contact lenses or wo ....Drug Delivery Devices : Hydrogels manufactured utilising Dense Gas Technologies. Many drugs are rapidly eliminated from the human body, and would benefit from being released over a long period of time. In this study, formulations to deliver drugs will be developed, using hydrogels: highly cross-linked, water saturated polymers. The polymers to be investigated are based on ingredients suitable for ingestion. Hydrogels are in common use as external therapeutic devices, such as contact lenses or wound dressings. However, hydrogels are not commonly in use as ingested drug delivery devices due to problems with the existing technologies, such as toxicity of ingredients. These problems will be addressed in this study.Read moreRead less
Carbon Dioxide: Solvent, Carrier and Reagent, for novel polymer networks with controlled nano-architectures. The proposed environmentally friendly technology has broad applications for improving properties of various polymeric matrices used for biomedical applications. The process developed would value-add for manufacturing biomedical polymeric devices in Australia with licensing of existing fabrication methods as a best option. Moreover, the leading-edge polymer technology developed would mini ....Carbon Dioxide: Solvent, Carrier and Reagent, for novel polymer networks with controlled nano-architectures. The proposed environmentally friendly technology has broad applications for improving properties of various polymeric matrices used for biomedical applications. The process developed would value-add for manufacturing biomedical polymeric devices in Australia with licensing of existing fabrication methods as a best option. Moreover, the leading-edge polymer technology developed would minimise the organic solvent consumption and will attract business from international polymer and biotechnology companies for production of implant and drug delivery devices. The development of world-class research provides Australia with recognition as a world leader in the field and broadens the knowledge based of Australian scientist and engineers.Read moreRead less