Towards Nano-Assembled Light Emitting Polymer Films. Advanced materials constructed with molecular level architecture through controlled nano-assembly will benefit medical science, biotechnology and nanotechnology, communications and the electronics fields. The national research priorities of nanotechnology and advanced materials through nano-assembly will be promoted by this work. This research will assist Australian industries to further advance these processes and devices leading to better qu ....Towards Nano-Assembled Light Emitting Polymer Films. Advanced materials constructed with molecular level architecture through controlled nano-assembly will benefit medical science, biotechnology and nanotechnology, communications and the electronics fields. The national research priorities of nanotechnology and advanced materials through nano-assembly will be promoted by this work. This research will assist Australian industries to further advance these processes and devices leading to better quality, cheaper, more efficient products. The Australian community will benefit through economic and technological advances. These advanced materials will promote health and environmental wellbeing.Read moreRead less
Dynamics of Photon-Induced Processes in Engineered Polymer Systems. This project will investigate photo-induced energy and electron transport in innovative polymer systems of well defined structure. New functionalised, aromatic and conjugated polymers will be synthesised and studied by ultrafast laser spectroscopic techniques. Information on the dynamics of light energy dissipation processes in these polymers on time-scales down to the femtosecond regime and at a single molecule level will be ....Dynamics of Photon-Induced Processes in Engineered Polymer Systems. This project will investigate photo-induced energy and electron transport in innovative polymer systems of well defined structure. New functionalised, aromatic and conjugated polymers will be synthesised and studied by ultrafast laser spectroscopic techniques. Information on the dynamics of light energy dissipation processes in these polymers on time-scales down to the femtosecond regime and at a single molecule level will be obtained. The results will provide the basic information required to develop novel photon-active materials and devices.Read moreRead less
Single molecule spectroscopy of functional luminescent materials. This project will provide new insights into the light induced processes occurring in individual molecules of potentially useful luminescent materials. The molecules to be studied include new fluorescent probes of biological and polymer systems and single light harvesting nanoparticles with applications in solar energy collection and conversion. The program of work proposed will increase our understanding of light induced chemical ....Single molecule spectroscopy of functional luminescent materials. This project will provide new insights into the light induced processes occurring in individual molecules of potentially useful luminescent materials. The molecules to be studied include new fluorescent probes of biological and polymer systems and single light harvesting nanoparticles with applications in solar energy collection and conversion. The program of work proposed will increase our understanding of light induced chemical processes and assist the design of advanced materials for photomolecular devices.Read moreRead less