Light scattering in complex mesoscale systems. The aim of the proposed project is to develop tested theoretic models of, and test applications of, the scattering of light in complex mesoscale systems. This will include: light scattering by biological cells, including optical cancer detection, remote sensing of cell populations, flow cytometry and optical tweezers; optically driven micromachines, and nano- and micro-structured materials. These applications are of considerable technological, socia ....Light scattering in complex mesoscale systems. The aim of the proposed project is to develop tested theoretic models of, and test applications of, the scattering of light in complex mesoscale systems. This will include: light scattering by biological cells, including optical cancer detection, remote sensing of cell populations, flow cytometry and optical tweezers; optically driven micromachines, and nano- and micro-structured materials. These applications are of considerable technological, social, and economic importance, and significant advances are possible. Methods developed during this project will allow accurate theoretical calculations to be performed where only inadequate approximations have previously been possible.Read moreRead less
Quantum coherence of electronic transport in layered magnetoresistive materials. The continued rapid expansion of information technology requires new materials and devices for information storage. State of the art computer memories are based on new materials which consist of layers of complex arrays of atoms. These materials have metallic properties quite unlike those of simple metals such as copper and steel. This research will lead to a greater understanding of and ability to design better ma ....Quantum coherence of electronic transport in layered magnetoresistive materials. The continued rapid expansion of information technology requires new materials and devices for information storage. State of the art computer memories are based on new materials which consist of layers of complex arrays of atoms. These materials have metallic properties quite unlike those of simple metals such as copper and steel. This research will lead to a greater understanding of and ability to design better materials. Australia's capacity for research and development in this scientifically challenging and technologically important field will be enhanced by this project. Read moreRead less
Biomolecular optoelectronic materials and devices. The melanins are the molecules in our skin, eyes and hair that provide colour and protection from the sun. In addition to being important bio-molecules, they have properties which make them useful for high tech applications especially in electronics and optoelectronics. Unfortunately, our current understanding of these fascinating materials is poor. In our project we aim to solve this limiting problem. We will develop new science to explain thei ....Biomolecular optoelectronic materials and devices. The melanins are the molecules in our skin, eyes and hair that provide colour and protection from the sun. In addition to being important bio-molecules, they have properties which make them useful for high tech applications especially in electronics and optoelectronics. Unfortunately, our current understanding of these fascinating materials is poor. In our project we aim to solve this limiting problem. We will develop new science to explain their behaviour, and use this knowledge to create bio-compatible hi-tech materials and devices. We anticipate significant benefits from the perspectives of basic science and utilisation of biomaterials for new green technologies.Read moreRead less