Nanotribology-The Chemical Rolling Resistance of Single Nanocrystals. Australian efforts in biosensors, environmental monitoring and mobile-health are predicated on the establishment of a nanotechnology based manufacturing sector. The key to this will be understanding how ultrasmall mechanical devices work. This application explores how we can make novel mechanical devices from molecules and small crystals.
Energy Conversion and Signal Transduction in Nanomechanical Systems. Miniaturization of materials and electronic devices is an important technological goal. In order to make smaller working devices,we need to understand how to create molecular scale devices such as valves, switches, pumps and motors. This Fellowship will explore ways to make smaller, portable devices that can be used for personal health monitoring,environmental sensing and the detection of disease and pathogens.
Special Research Initiatives - Grant ID: SR0354636
Funder
Australian Research Council
Funding Amount
$30,000.00
Summary
Australian Computational Molecular Science Network. Computational Molecular Science (CMS) involves the use of theory and computational methods to simulate and visualise molecular systems ranging from small atmospheric species to proteins, nucleic acids, chemical polymers and materials. It represents our most incisive expression of what we understand about the molecular basis of nature. The CMS network will integrate and cross-fertilize both fundamental and application-based expertize in molecula ....Australian Computational Molecular Science Network. Computational Molecular Science (CMS) involves the use of theory and computational methods to simulate and visualise molecular systems ranging from small atmospheric species to proteins, nucleic acids, chemical polymers and materials. It represents our most incisive expression of what we understand about the molecular basis of nature. The CMS network will integrate and cross-fertilize both fundamental and application-based expertize in molecular scale computations in the fields of nanoscience, biomaterials, biotechnology, biomedical science and environmental science. It will uncover and explore critical new interdisciplinary science and create new molecular-based paradigms that will drive advances in these fields over the next decade.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0237958
Funder
Australian Research Council
Funding Amount
$133,000.00
Summary
An enclosive flow Cooling cell for spectroscopic studies. We wish to install a low temperature absorption cell that will be coupled to high resolution spectrometer systems operating in the infrared, visible and ultra-violet regions of the spectrum. This will enable us to further develop techniques for the study of the structures, dynamics and kinetics of molecules of biological and atmospheric significance. This will lead to a better understanding of the structures, dynamics and reaction kinetic ....An enclosive flow Cooling cell for spectroscopic studies. We wish to install a low temperature absorption cell that will be coupled to high resolution spectrometer systems operating in the infrared, visible and ultra-violet regions of the spectrum. This will enable us to further develop techniques for the study of the structures, dynamics and kinetics of molecules of biological and atmospheric significance. This will lead to a better understanding of the structures, dynamics and reaction kinetics of these species and in the case of atmospheric species also provide molecular parameters required for atmospheric monitoring.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0454008
Funder
Australian Research Council
Funding Amount
$340,962.00
Summary
Multi-function high resolution-analytical scanning electron microscope facility. The aim of this proposal is to establish a high resolution electron microscope facility as part of a comprehensive materials characterisation infrastructure required to support Swinburne's expanding activities in nanotechnology. A high resolution SEM in conjunction with an upgrade of the current SEM will provide advanced instrumentation for nanoscale imaging, analysis and manipulation of materials. The proposed faci ....Multi-function high resolution-analytical scanning electron microscope facility. The aim of this proposal is to establish a high resolution electron microscope facility as part of a comprehensive materials characterisation infrastructure required to support Swinburne's expanding activities in nanotechnology. A high resolution SEM in conjunction with an upgrade of the current SEM will provide advanced instrumentation for nanoscale imaging, analysis and manipulation of materials. The proposed facility will create new opportunities for collaborative programs with local and overseas researcher and will facilitate rapid progress in research programs across the entire University in particular those related to two ARC Centres of Excellence in which the University is a core partner.Read moreRead less
Cellular and network basis of information processing in the mammalian visual system. The project aims to discover the strategies by which cells in the brain interact with each other to code the sensory input efficiently. It is expected that simultaneous recording of the activity of many neurones from the visual cortex of anaesthetised cats during visual stimulation will reveal how the biophysics of synaptic integration combined with excitatory and inhibitory inputs from different sources sculpt ....Cellular and network basis of information processing in the mammalian visual system. The project aims to discover the strategies by which cells in the brain interact with each other to code the sensory input efficiently. It is expected that simultaneous recording of the activity of many neurones from the visual cortex of anaesthetised cats during visual stimulation will reveal how the biophysics of synaptic integration combined with excitatory and inhibitory inputs from different sources sculpts the output of individual neurones. The experiments will be extended to the study of possible interactions between different areas of the brain and the study of mechanisms by which the cortical network and higher cognitive factors such as attention and memory might influence the coding of sensory information in awake animals.Read moreRead less
Nano-Engineering of Optical Fibre Fresnel Lenses. It is expected that the development of the Fresnel Lens Fibre will greatly enhance the simplicity with which fibres can be integrated into a variety of systems. An intrinsically focussing fibre will be cheap to produce and have significant size advantages over its competitors, thus giving it an excellent competitive advantage in the market place. Australia is home to a number of companies that would directly benefit from the commercialisation of ....Nano-Engineering of Optical Fibre Fresnel Lenses. It is expected that the development of the Fresnel Lens Fibre will greatly enhance the simplicity with which fibres can be integrated into a variety of systems. An intrinsically focussing fibre will be cheap to produce and have significant size advantages over its competitors, thus giving it an excellent competitive advantage in the market place. Australia is home to a number of companies that would directly benefit from the commercialisation of a Fresnel Lens Fibre. In addition to a range of possible telecommunications applications, the focussing fibre also has applications in spectroscopy, minimally invasive surgical procedures, and especially in the field of photodynamic therapy. Read moreRead less
Fractal Based Index Profiles for a New Class of Optical Fibre. Australia has a strong base in photonics serving technological advanced areas of perimeter security, minimally invasive surgical applications, high resolution imaging and optical sensing . Our photonic companies need novel fibre optic advances to stay competitive internationally in order to open new marketing opportunities being driven by market pull. The present innovation will add single fibre solution, fractal based technology, an ....Fractal Based Index Profiles for a New Class of Optical Fibre. Australia has a strong base in photonics serving technological advanced areas of perimeter security, minimally invasive surgical applications, high resolution imaging and optical sensing . Our photonic companies need novel fibre optic advances to stay competitive internationally in order to open new marketing opportunities being driven by market pull. The present innovation will add single fibre solution, fractal based technology, an Australian scientific advance, to the range of technologies supporting our advanced materials-photonic companies.Read moreRead less
New Imaging Agents for Neuronal Nicotinic Receptors. Recent advances in medical imaging technology such as Positron Emission Tomography (PET) and Single Photon Emission Computed Tomography (SPECT) have radically improved the diagnosis and treatment of a wide range of diseases. The aim of this project is to discover novel radio-ligands that selectively bind to neuronal nicotinic acetylcholine receptors. These ligands will have great potential for the imaging, diagnosis and study of neurodegenerat ....New Imaging Agents for Neuronal Nicotinic Receptors. Recent advances in medical imaging technology such as Positron Emission Tomography (PET) and Single Photon Emission Computed Tomography (SPECT) have radically improved the diagnosis and treatment of a wide range of diseases. The aim of this project is to discover novel radio-ligands that selectively bind to neuronal nicotinic acetylcholine receptors. These ligands will have great potential for the imaging, diagnosis and study of neurodegenerative diseases such as Alzheimer's disease. Read moreRead less
Development of a neutral helium beam microscope. This project would demonstrate Australia's capability in developing leading edge technologies applicable to the growing nanotechnology industry. The development of a neutral helium beam microscope brings into Australia expertise in the emerging field of molecular optics, and would place Australia as one of the first countries to make a commitment to this field. The project will develop a prototype instrument which is aimed at becoming a commercial ....Development of a neutral helium beam microscope. This project would demonstrate Australia's capability in developing leading edge technologies applicable to the growing nanotechnology industry. The development of a neutral helium beam microscope brings into Australia expertise in the emerging field of molecular optics, and would place Australia as one of the first countries to make a commitment to this field. The project will develop a prototype instrument which is aimed at becoming a commercially viable product - the neutral helium beam microscope. The possibilities of using the microscope system as a nanofabrication device would also give researchers in Australia the ability to fabricate structures that could not be manufactured anywhere else in the world.Read moreRead less