Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0238898
Funder
Australian Research Council
Funding Amount
$352,000.00
Summary
Novel Optical Microprobes - fluorescence excitation, lifetime and surface enhanced Raman spectroscopies. State-of-the-art technologies in microscopy will be combined with the versatility and diagnostic power of spectroscopy for the analysis and identification of materials by methods sensitive to chemical structure as well as spatial inhomogeneity. The proposed systems will operate within an existing multi-user optical characterisation facility at Macquarie University thus supporting the research ....Novel Optical Microprobes - fluorescence excitation, lifetime and surface enhanced Raman spectroscopies. State-of-the-art technologies in microscopy will be combined with the versatility and diagnostic power of spectroscopy for the analysis and identification of materials by methods sensitive to chemical structure as well as spatial inhomogeneity. The proposed systems will operate within an existing multi-user optical characterisation facility at Macquarie University thus supporting the research of an established and expanding network of researchers in the Sydney area and in Melbourne. The suite of instruments will provide new and exciting avenues for interdisciplinary research between the physical and biological sciencesRead moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0239044
Funder
Australian Research Council
Funding Amount
$195,000.00
Summary
Next generation organic electronic and optoelectronic device fabrication facility. This application will establish a unique facility to fabricate a new generation of plastic electronic devices. Whilst organic devices have been proposed for several years, a series of breakthroughs in the development of fabrication technologies in the last year have produced novel inexpensive solar cells, lasers, transistors and superconducting electronic devices made from organic materials. At present there is no ....Next generation organic electronic and optoelectronic device fabrication facility. This application will establish a unique facility to fabricate a new generation of plastic electronic devices. Whilst organic devices have been proposed for several years, a series of breakthroughs in the development of fabrication technologies in the last year have produced novel inexpensive solar cells, lasers, transistors and superconducting electronic devices made from organic materials. At present there is no facility to fabricate these devices in Australia, although the potential market for optoelectronic applications exceeds US$12 billion. The proposed facility will enable Australia to actively partake in the development of this new technology at its early stages.Read moreRead less
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