Development of advanced metal oxide materials for next generation nonvolatile memory devices. The purpose of the project is to explore a new memory technology, resistive random-access memory, that can be made smaller than those of today, as well as preferably being faster, power saving and nonvolatile. The project is expected to bring resistive random-access memory materials a step closer to nonvolatile memory devices application.
Fabrication, charge and spin ordering, magnetoresistance, and polaron effects in nano-size and single crystals of novel transition metal perovskite oxides. The aim of the project is to synthesize a systematic series of novel colossal magnetoresistance manganese, cobalt and iron based transition metal perovskite oxides in the forms of nano-structures, nano-structured composites and single crystals using advanced nano-technology and crystal growth techniques. Extensive fundamental studies on magne ....Fabrication, charge and spin ordering, magnetoresistance, and polaron effects in nano-size and single crystals of novel transition metal perovskite oxides. The aim of the project is to synthesize a systematic series of novel colossal magnetoresistance manganese, cobalt and iron based transition metal perovskite oxides in the forms of nano-structures, nano-structured composites and single crystals using advanced nano-technology and crystal growth techniques. Extensive fundamental studies on magnetoresistance, spin and change ordering, and nano-scale behaviors will be carried out by neutron diffraction, synchrotron radiation, transport and magnetic measurements over a wide temperature range and magnetic fields. The outcomes of this project are likely to lead to a better undertanding of the colossal magnetoresistance mechanisms, the discovery of fascinating new physical phenomena and suitable magnetoresistance materials for superior magnetic recording, sensing and switch devicesRead moreRead less
Pulsed Laser Deposition of Zinc Oxide-based Materials for Optoelectronic Device Applications. Zinc oxide (ZnO) is expected to play an important role in new optoelectronic components and systems such as visible and ultraviolet light sources, high temperature electronics and window materials for solar cells. This project will not only investigate the fundamental issues related to the growth of ZnO but also develop some solutions to realise the true potentials of ZnO-based materials. This project i ....Pulsed Laser Deposition of Zinc Oxide-based Materials for Optoelectronic Device Applications. Zinc oxide (ZnO) is expected to play an important role in new optoelectronic components and systems such as visible and ultraviolet light sources, high temperature electronics and window materials for solar cells. This project will not only investigate the fundamental issues related to the growth of ZnO but also develop some solutions to realise the true potentials of ZnO-based materials. This project is at the forefront of a number of important fields, and therefore the outcomes are expected to appeal to a large community of academics, national security and the high technology industries. It will position the Australian researchers among the pioneering groups in this area.Read moreRead less
Controllable growth of magnetic semiconductor quantum dots for future spintronic and optoelectronic devices. This project aims to develop high quality magnetic semiconductor materials for next generation magnetic and optoelectronic devices. Outcomes of this project will lead to advanced applications in light-emitting diodes and information technology, such as high density hard drivers and low dissipation quantum computers.
Self-assembled surface arrays of mesoscale plasmonic devices for switchable control of coloured surfaces. This project has a well-defined outcome with potentially significant commercial interest. The proposed device is novel and the development of it will enhance the science and technology infrastructure within Australia, taking it into original and exciting directions. A successful demonstration of it will enhance Australia's competitive position in the field of nanotechnology and could conceiv ....Self-assembled surface arrays of mesoscale plasmonic devices for switchable control of coloured surfaces. This project has a well-defined outcome with potentially significant commercial interest. The proposed device is novel and the development of it will enhance the science and technology infrastructure within Australia, taking it into original and exciting directions. A successful demonstration of it will enhance Australia's competitive position in the field of nanotechnology and could conceivably lead to a manufacturing activity either located in Australia or in which Australian entities have an interest. Envisaged applications include optical circuitry, 'smart' windows and display surfaces on consumer devices.Read moreRead less
Exploration for new materials for spintronics. The scope for use of spintronic materials in practical applications will be enormous and there will be a huge market for spintronic devices. In fact, giant magnetoresistance spintronic materials are already used in practical applications such as magnetic recording and storage devices. The success of this project will certainly lead to a discovery of novel magnetic semiconductor spintronic materials and better understanding of spin dependent magneti ....Exploration for new materials for spintronics. The scope for use of spintronic materials in practical applications will be enormous and there will be a huge market for spintronic devices. In fact, giant magnetoresistance spintronic materials are already used in practical applications such as magnetic recording and storage devices. The success of this project will certainly lead to a discovery of novel magnetic semiconductor spintronic materials and better understanding of spin dependent magnetic interactions. It will enhance the international competitiveness and export power of Australian industry in the areas of information technology, quantum computing, magnetic recording and magneto-electronics. Read moreRead less
Understanding of nanostructures and magnetic properties of Ge-based diluted magnetic semiconductors for spintronic devices. The success of growing high-quality germanium-based diluted magnetic semiconductors will position Australian fundamental & applied research at the world forefront of magnetic semiconductors. This multi-disciplinary research will not only secure a number of high-impact publications in leading international journals, but also has the potential to generate patentable technolog ....Understanding of nanostructures and magnetic properties of Ge-based diluted magnetic semiconductors for spintronic devices. The success of growing high-quality germanium-based diluted magnetic semiconductors will position Australian fundamental & applied research at the world forefront of magnetic semiconductors. This multi-disciplinary research will not only secure a number of high-impact publications in leading international journals, but also has the potential to generate patentable technologies which might bring potential economic benefits to Australia. In addition, the project will strengthen the collaboration between Australian researchers and world-renowned scientists and will allow Australian researchers to access world-best fabrication facilities. All these will enhance the international competitive profile of Australia in the field of spintronics.Read moreRead less
Development of new lead-free solders for use on aluminium conductors in photovoltaic systems and electric vehicles. This project will tackle a longstanding environmental issue within electrical and electronic industries through developing lead-free solder alloys for use on relatively low cost aluminium substrates. As aluminium is a very light metal, this research will have significant impact on the development of photovoltaic devices and electric vehicles. The developed technology will also prom ....Development of new lead-free solders for use on aluminium conductors in photovoltaic systems and electric vehicles. This project will tackle a longstanding environmental issue within electrical and electronic industries through developing lead-free solder alloys for use on relatively low cost aluminium substrates. As aluminium is a very light metal, this research will have significant impact on the development of photovoltaic devices and electric vehicles. The developed technology will also promote the use of aluminium alloys and bring direct benefit to Australian mining and light metal industries.Read moreRead less
Electrically conductive elastomeric composites by nanomaterials. Electrically conductive elastomeric composites by nanomaterials. This project aims to develop electrically conductive, mechanically robust, cost-effective elastomeric composites, by exploring new processing methods and studying the synergy between graphene sheets and multi-walled carbon nanotubes. Composites will be design, research and manufactured to suit the fabrication of rolling-resistance sensors that detect early-stage malfu ....Electrically conductive elastomeric composites by nanomaterials. Electrically conductive elastomeric composites by nanomaterials. This project aims to develop electrically conductive, mechanically robust, cost-effective elastomeric composites, by exploring new processing methods and studying the synergy between graphene sheets and multi-walled carbon nanotubes. Composites will be design, research and manufactured to suit the fabrication of rolling-resistance sensors that detect early-stage malfunctioning idler rolls. This technology could prevent the breakage of conveyor belts which are essential to the mining, processing and transportation of loose bulk materials; and improve the design and manufacturing of flexible sensors.Read moreRead less