Multimodal biomedical imaging probes: development of advanced polymer nanocomposite devices for oncology. Despite significant research being directed toward cancer treatment, 7.6 million people died world wide in 2007. Early detection and treatment is widely recognised as being effective in significantly reducing mortality rates. Biomedical imaging techniques are routinely used for detection and staging of many cancers. However, greater sensitivity is required so that these techniques can be app ....Multimodal biomedical imaging probes: development of advanced polymer nanocomposite devices for oncology. Despite significant research being directed toward cancer treatment, 7.6 million people died world wide in 2007. Early detection and treatment is widely recognised as being effective in significantly reducing mortality rates. Biomedical imaging techniques are routinely used for detection and staging of many cancers. However, greater sensitivity is required so that these techniques can be applied to very early detection of tumours. To overcome this short-coming the next generation of imaging probes will be developed, which will require fundamental investigations in polymer and nanomaterials science to maximise imaging sensitivity and extend probe functionality. Successful outcomes will lead to significant benefits to healthcare in Australia.Read moreRead less
Supercritical CO2: A Clean, Green Reaction Medium for Novel Polymer Synthesis and Modification. This project will lead to the development of new macromolecular structures with application in many areas ranging from drug delivery to the microelectronics industry. More importantly, the processes used to manufacture these products will utilise supercritical CO2 - a clean, green processing technology that can totally remove the need for using environmentally-degrading, volatile organic solvents. The ....Supercritical CO2: A Clean, Green Reaction Medium for Novel Polymer Synthesis and Modification. This project will lead to the development of new macromolecular structures with application in many areas ranging from drug delivery to the microelectronics industry. More importantly, the processes used to manufacture these products will utilise supercritical CO2 - a clean, green processing technology that can totally remove the need for using environmentally-degrading, volatile organic solvents. The unique properties of scCO2 will be used to develop new polymer materials and processes. This technology will promote Australia's commitment towards greener industrial alternatives, while simultaneously strengthening our science and opening up new possibilities in the rapidly advancing area of nano-technology. Read moreRead less