Functionalisation of boron nitride nanotubes: preparation, underlying mechanism and potential sensor applications. Building on Australian expertise in synthesis and characterisations of nanomaterials, this project will carry out comprehensive and systematic research in functionalisation of boron nitride nanotubes and explore their potential applications. The success of this project will enhance Australian international reputation in nanotechnology development and ensure our leading position in t ....Functionalisation of boron nitride nanotubes: preparation, underlying mechanism and potential sensor applications. Building on Australian expertise in synthesis and characterisations of nanomaterials, this project will carry out comprehensive and systematic research in functionalisation of boron nitride nanotubes and explore their potential applications. The success of this project will enhance Australian international reputation in nanotechnology development and ensure our leading position in this highly competitive area. The outcome of this project will promote the potentially functional applications of boron nitride nanotubes in various nanodevices and nanosensors. It will also offer trainings for Australia's future scientists and will further strengthen international scientific collaboration in these fields.Read moreRead less
Microanalysis of novel carbon thin films. Carbon coatings are technologically important and have many applications in automotive and biomedical industries worldwide. An example automotive application is as a coating for high performance fuel injectors. Carbon coatings have significant unrealised potential for applications in hostile environments such as those encountered in high performance engineering components and in the human body. Electrical devices can be fabricated with these films suitab ....Microanalysis of novel carbon thin films. Carbon coatings are technologically important and have many applications in automotive and biomedical industries worldwide. An example automotive application is as a coating for high performance fuel injectors. Carbon coatings have significant unrealised potential for applications in hostile environments such as those encountered in high performance engineering components and in the human body. Electrical devices can be fabricated with these films suitable for use in compact electrical devices requiring high current density. This project will add to the techniques used for the analysis of carbon coatings being developed in Australia. 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
Template-Directed Growth and Assembly of Nanoscale Graphitic Carbon Structures. The various nanometre-scale forms of graphitic carbon have been strong candidates for use as novel building blocks in electronic, opto-electronic and electro-mechanical devices. However, their development has been hampered by a lack of control of the type, quality and homogeneity of structures produced by conventional methods.
This project aims to fabricate and characterise thin films of ordered, high-quality carbon ....Template-Directed Growth and Assembly of Nanoscale Graphitic Carbon Structures. The various nanometre-scale forms of graphitic carbon have been strong candidates for use as novel building blocks in electronic, opto-electronic and electro-mechanical devices. However, their development has been hampered by a lack of control of the type, quality and homogeneity of structures produced by conventional methods.
This project aims to fabricate and characterise thin films of ordered, high-quality carbon nanostructures. A novel synthesis route, involving the controlled deposition of carbon onto template substrates, is proposed. The products will be studied with near-atomic resolution to understand their formation mechanisms, and hence approach the goal of elaborating carbon-based nanodevices.
Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775656
Funder
Australian Research Council
Funding Amount
$490,000.00
Summary
High Rate Testing System for Materials and Structures. Human or natural disasters such as terrorist attack or tsunami take place and they have catastrophic consequences, in terms of fatalities and psyche of fear among the population, as well as enormous financial loss. Vehicle accident is another example. In Australia, 1636 people were killed in 1481 road crashes, in 2005 alone. There is a great demand for research into devising novel materials and structures for optimum performance under such c ....High Rate Testing System for Materials and Structures. Human or natural disasters such as terrorist attack or tsunami take place and they have catastrophic consequences, in terms of fatalities and psyche of fear among the population, as well as enormous financial loss. Vehicle accident is another example. In Australia, 1636 people were killed in 1481 road crashes, in 2005 alone. There is a great demand for research into devising novel materials and structures for optimum performance under such circumstances. The proposed new high rate testing system will significantly advance research in this area. The facility will directly support a range of research projects in material and structural design in military and civil vehicles, aerospace industry and defence.Read moreRead less
Guided droplet deposition: Microfabrication of advanced materials. The progress of micro and nanofabrication is opening an array of new opportunities with a new degree of freedom for manufacturing. This process will complement the existing micromanufacturing facilities in Melbourne. While metal printing and deposition of polymers is presently available, the guided droplet deposition will extend current capabilities to include ceramics and high melting temperature metals. Direct application to me ....Guided droplet deposition: Microfabrication of advanced materials. The progress of micro and nanofabrication is opening an array of new opportunities with a new degree of freedom for manufacturing. This process will complement the existing micromanufacturing facilities in Melbourne. While metal printing and deposition of polymers is presently available, the guided droplet deposition will extend current capabilities to include ceramics and high melting temperature metals. Direct application to medical devices will provide a more effective surface for improved performance and allow the incorporation of smart and sensor materials for multifunctional devices. Read moreRead less
Advanced Ionic Materials for Organic Photovoltaics. Australia will greatly benefit from the development of improved solar energy technology, as a means of addressing the issue of climate change as a result of continued fossil fuel use. Solar power is also advantageous as it also allows electricity to be generated locally where it is needed, which is particularly important for the many remote areas of Australia. The climate in Australia is ideally suited for the electricity production through pho ....Advanced Ionic Materials for Organic Photovoltaics. Australia will greatly benefit from the development of improved solar energy technology, as a means of addressing the issue of climate change as a result of continued fossil fuel use. Solar power is also advantageous as it also allows electricity to be generated locally where it is needed, which is particularly important for the many remote areas of Australia. The climate in Australia is ideally suited for the electricity production through photovoltaics, and this project will focus on improving the performance of these devices to enable their widespread use. Read moreRead less
Advanced polymer fibres with multiple functionalities. This project will add value to the local polymer and fibre industries. Australia is a significant producer of synthetic polymers such as polypropylene and the largest producer of wool. There is also local production of nanoparticles such as zinc oxide. This project will add value to all these producers through innovative uses and applications of different types of material. Combining organic and inorganic particles in a polymer matrix has no ....Advanced polymer fibres with multiple functionalities. This project will add value to the local polymer and fibre industries. Australia is a significant producer of synthetic polymers such as polypropylene and the largest producer of wool. There is also local production of nanoparticles such as zinc oxide. This project will add value to all these producers through innovative uses and applications of different types of material. Combining organic and inorganic particles in a polymer matrix has not been reported. This innovation will strengthen our position in research into advanced materials, which is a national research priority.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0882948
Funder
Australian Research Council
Funding Amount
$440,000.00
Summary
Multidisciplinary 'Environmental' Field Emission Gun Scanning Electron Microscope. The present proposal is for a high resolution electron microscope for use in the development of new materials for the automotive, textile and bio-medical sectors. The new generation of automotive materials will be lighter and more crash resistant. New textiles will be 'active' in providing warmth and cooling through their conducting properties. They will also provide enhanced dynamic protection against physical ha ....Multidisciplinary 'Environmental' Field Emission Gun Scanning Electron Microscope. The present proposal is for a high resolution electron microscope for use in the development of new materials for the automotive, textile and bio-medical sectors. The new generation of automotive materials will be lighter and more crash resistant. New textiles will be 'active' in providing warmth and cooling through their conducting properties. They will also provide enhanced dynamic protection against physical harm. The facility will support the development of new cellular scaffolds made from metals and polymers. These scaffolds will be used for tissue growth and engineering. The facility will also be used to support Deakin University's regional collaborators.Read moreRead less
Characterization and design of new soft electrolyte materials. The use of fossil fuels for energy generation contributes heavily to global warming. The development of new types of energy sources (e.g. fuel cells) and energy storage devices (e.g. batteries) is of crucial importance to ease this pressure on the environment. The search for new, high energy-density electrolyte materials for these applications is intense. Recently, plastic crystal materials have been identified as potential electroly ....Characterization and design of new soft electrolyte materials. The use of fossil fuels for energy generation contributes heavily to global warming. The development of new types of energy sources (e.g. fuel cells) and energy storage devices (e.g. batteries) is of crucial importance to ease this pressure on the environment. The search for new, high energy-density electrolyte materials for these applications is intense. Recently, plastic crystal materials have been identified as potential electrolytes in a variety of electrochemical devices. These materials show high conductivity at ambient temperatures in their plastic (or soft) phase. This project aims to further investigate and develop these novel materials.Read moreRead less