Dendritic Organic Semiconductors. This Federation Fellowship, along with the creation of a Centre for Organic Semiconductor Research at The University of Queensland will enable Australian science to have a high profile in organic semiconductors. This is an important scientific and technological goal and the research programme will provide expertise for industry in Australia as well as potentially creating technologies for new industry. It will also provide a focus for other academic institutions ....Dendritic Organic Semiconductors. This Federation Fellowship, along with the creation of a Centre for Organic Semiconductor Research at The University of Queensland will enable Australian science to have a high profile in organic semiconductors. This is an important scientific and technological goal and the research programme will provide expertise for industry in Australia as well as potentially creating technologies for new industry. It will also provide a focus for other academic institutions in Australia by bringing together people with the requisite expertise in materials preparation, characterisation, modelling, photophysics, and device physics and engineering. Read moreRead less
Development of an Adjustable Porphyrin-based Molecular Platform for Nanotechnology Applications. Nanotechnology, the art of molecular control, is often heralded as the next industrial revolution. For this to be realised, the construction of useful devices will require precise control at the molecular level. Our control is realised through a process called self-assembly which means that the once the components of the device are correctly designed, the device will simply be able to put itself tog ....Development of an Adjustable Porphyrin-based Molecular Platform for Nanotechnology Applications. Nanotechnology, the art of molecular control, is often heralded as the next industrial revolution. For this to be realised, the construction of useful devices will require precise control at the molecular level. Our control is realised through a process called self-assembly which means that the once the components of the device are correctly designed, the device will simply be able to put itself together. This research will use nature's light harvesting elements, namely porphyrins, and our ability to precisely control their position with respect to each other to build new, more efficient solar cells.Read moreRead less
Spin-liquids, antiferromagnetism, and superconductivity in organic charge transfer salts: synthesis, neutron scattering and theory. Materials have driven the digital revolution. Understanding and controlling silicon has allowed us to make smaller devices that perform better; an iPhone has more computing power than a PC had ten years ago. For this remarkable trend to continue future devices will need to utilise novel physics and be made from new materials. We will grow crystals of organic molecul ....Spin-liquids, antiferromagnetism, and superconductivity in organic charge transfer salts: synthesis, neutron scattering and theory. Materials have driven the digital revolution. Understanding and controlling silicon has allowed us to make smaller devices that perform better; an iPhone has more computing power than a PC had ten years ago. For this remarkable trend to continue future devices will need to utilise novel physics and be made from new materials. We will grow crystals of organic molecules, whose properties derive from the correlated motion of the electrons in these materials. State-of-the-art 'neutron scattering' experiments will test theories of the way the electrons behave in these materials. We will answer fundamental questions, which is an important first step towards harnessing such effects for future technology.Read moreRead less
Dendrimers: multidimensional sensors. The threat of terrorism is presented to us on a daily basis. Although there is often talk of dirty bombs, and biological and nuclear terrorism, the most easily sourced weapon of the terrorist is still the conventional explosive. As such the ability to detect trace amounts of compounds such as TNT or Semtex is required. This means that there is a real need for a portable detection system with the ability to reliably sense a specific explosive, selectively at ....Dendrimers: multidimensional sensors. The threat of terrorism is presented to us on a daily basis. Although there is often talk of dirty bombs, and biological and nuclear terrorism, the most easily sourced weapon of the terrorist is still the conventional explosive. As such the ability to detect trace amounts of compounds such as TNT or Semtex is required. This means that there is a real need for a portable detection system with the ability to reliably sense a specific explosive, selectively at low concentrations. This project concerns the development of new sensors that have potential to increase the nation's security.Read moreRead less
Macromolecular Materials for Organic Solar Cells. The world is in the midst of a climate crisis driven by mankind's insatiable demand for fossil-fuel energy. Renewable technologies such as solar and wind will undoubtedly form part of our future energy mix. Solar cells in particular have great potential- especially in sunny countries like Australia. The uptake of solar cell technology is hampered by their current high cost and long payback time. This project concerns the development of new solar ....Macromolecular Materials for Organic Solar Cells. The world is in the midst of a climate crisis driven by mankind's insatiable demand for fossil-fuel energy. Renewable technologies such as solar and wind will undoubtedly form part of our future energy mix. Solar cells in particular have great potential- especially in sunny countries like Australia. The uptake of solar cell technology is hampered by their current high cost and long payback time. This project concerns the development of new solar cells based upon novel organic materials called dendrimers. These materials can be solution processed and will dramatically reduce cost and payback time in next generation devices.Read moreRead less