Coherent Transport of Spin Qubits in an Engineered-Atom Silicon Quantum Computer: Demonstrating the Critical Spintronics. The project will enhance Australia's scientific credentials in the nanotechnology national priority area and research capacity to play a role in the next-generation computer industry based on quantum technologies. Through its involvement of young postgraduate students and postdoctoral researchers in advanced science and technology, and strong international positioning, it wil ....Coherent Transport of Spin Qubits in an Engineered-Atom Silicon Quantum Computer: Demonstrating the Critical Spintronics. The project will enhance Australia's scientific credentials in the nanotechnology national priority area and research capacity to play a role in the next-generation computer industry based on quantum technologies. Through its involvement of young postgraduate students and postdoctoral researchers in advanced science and technology, and strong international positioning, it will strengthen Australia's intellectual capital and increase the prestige of Australian science. Quantum technology has the potential to impact the economy of nations and has important implications for national security. The project, through its focus on critical spintronic technology, will reinforce the investment in the Centre for Quantum Computer Technology.Read moreRead less
Novel multiferroic materials for the next generation of microelectronics: the effect of isotope substitution on magnetism. Materials which are either magnetic or ferroelectric are essential in modern information technologies. In multiferroic materials both properties coexist. They have large potential for industrial applications like the increase of data storage capacity. This project will investigate the nature of multiferroics and help develop these novel materials.
Spins in Organic Semiconductors. This project aims to understand the role that the quantum mechanical property of spin plays in the operation of electronic devices based on organic semiconductors, which will contribute to the design of better, more efficient devices. We will also investigate fundamental physics questions in organic material - the knowledge gained may be used to develop organic electronic devices with new, useful properties. Organic electronics are a growing industry and this res ....Spins in Organic Semiconductors. This project aims to understand the role that the quantum mechanical property of spin plays in the operation of electronic devices based on organic semiconductors, which will contribute to the design of better, more efficient devices. We will also investigate fundamental physics questions in organic material - the knowledge gained may be used to develop organic electronic devices with new, useful properties. Organic electronics are a growing industry and this research will enhance Australia's role in their development and commercialization. Improving the efficiency of organic lighting emitting devices will reduce Australia's energy use and greenhouse gas emissions, as lighting represents a significant fraction of our energy usage.Read moreRead less
Microscopic Origin of Ferromagnetism of Diluted Magnetic Demiconductors. Spintronics based on the spin in addition to the charge of electrons is believed to revolutionize current microelectronics, which is approaching the end of the so-called silicon road map. Diluted magnetic semiconductors are required to achieve spintronics, just as silicon in microelectronics. This project aims to understand the microscopic origin of ferromagnetism of diluted magnetic semiconductors - a major obstacle toward ....Microscopic Origin of Ferromagnetism of Diluted Magnetic Demiconductors. Spintronics based on the spin in addition to the charge of electrons is believed to revolutionize current microelectronics, which is approaching the end of the so-called silicon road map. Diluted magnetic semiconductors are required to achieve spintronics, just as silicon in microelectronics. This project aims to understand the microscopic origin of ferromagnetism of diluted magnetic semiconductors - a major obstacle towards spintronics. This research, addressing an important problem in breakthrough science and frontier technologies, will not only expand Australia's knowledge base and research capability, but also help to build Australia's high value-added industries. Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0237874
Funder
Australian Research Council
Funding Amount
$424,000.00
Summary
Active Polymer Research Facility. Sustainable economic growth for Australia requires renewable, environmentally acceptable energy resources. Solar cells made from conducting polymers present the tantalising possibility of producing cheap electricity from sunlight. Future development of these devices depends critically upon ready access to the advanced equipment necessary to investigate their material, device and photovoltaic characteristics. This project aims to establish the first integrated ch ....Active Polymer Research Facility. Sustainable economic growth for Australia requires renewable, environmentally acceptable energy resources. Solar cells made from conducting polymers present the tantalising possibility of producing cheap electricity from sunlight. Future development of these devices depends critically upon ready access to the advanced equipment necessary to investigate their material, device and photovoltaic characteristics. This project aims to establish the first integrated characterisation facility in Australia dedicated to developing efficient polymer solar cells. The Active Polymer Research Facility will allow researchers from Newcastle, Wollongong and Massey University to maintain their position at the forefront of international research into polymer photovoltaic devices.Read moreRead less
Plastic Solar Cells: Polymers that Harvest Sunlight. Sustainable economic growth for Australia requires renewable, environmentally acceptable energy resources. The most attractive option for the future generation of electrical energy is via the direct conversion of sunlight. The utilisation of solar energy has significant advantages over other energy sources in that it is inexhaustible and does not produce carbon dioxide or other pollutants. Conventional photovoltaic technology is not cost effe ....Plastic Solar Cells: Polymers that Harvest Sunlight. Sustainable economic growth for Australia requires renewable, environmentally acceptable energy resources. The most attractive option for the future generation of electrical energy is via the direct conversion of sunlight. The utilisation of solar energy has significant advantages over other energy sources in that it is inexhaustible and does not produce carbon dioxide or other pollutants. Conventional photovoltaic technology is not cost effective. Solar cells made from conducting polymers present the tantalising possibility of producing cheap electricity from sunlight. This project brings together experts in the physics and chemistry of conducting polymers with the goal of developing efficient plastic solar cells.Read moreRead less
Three Dimensional Integrated Circuits. Pushing the boundaries of current silicon fabrication technology, this proposal will investigate the possibilities of new 3D architectures to ensure that Australia remains at the forefront of world-wide research into atomic-scale electronics. It creates an important link to the latest technologies in atomistic device modelling in the US, developed at Texas Instruments. More importantly, by anticipating the problems that electronic device manufacturers are c ....Three Dimensional Integrated Circuits. Pushing the boundaries of current silicon fabrication technology, this proposal will investigate the possibilities of new 3D architectures to ensure that Australia remains at the forefront of world-wide research into atomic-scale electronics. It creates an important link to the latest technologies in atomistic device modelling in the US, developed at Texas Instruments. More importantly, by anticipating the problems that electronic device manufacturers are currently facing, and will face over their long-term horizons, the proposed research also seeks to provide Australia with a chance to lift its involvement in the multi-trillion dollar global semiconductor industry.Read moreRead less
Organic Field Effect Transistors for Biosensor Applications. The development of future Australian industries based on polymer electronics is tangible. The prohibitive establishment costs mean that there is effectively no Australian conventional semiconductor manufacturing industry. However, polymer electronic devices are simple to manufacture with low fabrication costs. As such, the commercial barriers to the development of an Australian soft electronics industry are much lower. Internationally, ....Organic Field Effect Transistors for Biosensor Applications. The development of future Australian industries based on polymer electronics is tangible. The prohibitive establishment costs mean that there is effectively no Australian conventional semiconductor manufacturing industry. However, polymer electronic devices are simple to manufacture with low fabrication costs. As such, the commercial barriers to the development of an Australian soft electronics industry are much lower. Internationally, soft electronics is developing apace and securing a soft electronics industry in Australia requires the urgent development of an Australian skill base in fabricating soft electronic devices. This project offers the opportunity of establishing a significant capability in soft electronic device fabrication.Read moreRead less