Atomic-scale Devices in Silicon - the Ultimate Limit of Microelectronics. Miniaturisation is the driving force behind the microelectronics industry, but beyond 2015 there is no known route to reduce device sizes below 10nm. The Fellowship will launch a major new initiative for the fabrication of silicon electronic devices at the atomic-scale (0.1nm). The project will exploit recent advances in scanning probe techniques to develop smaller and faster conventional transistors, nanoscale integrated ....Atomic-scale Devices in Silicon - the Ultimate Limit of Microelectronics. Miniaturisation is the driving force behind the microelectronics industry, but beyond 2015 there is no known route to reduce device sizes below 10nm. The Fellowship will launch a major new initiative for the fabrication of silicon electronic devices at the atomic-scale (0.1nm). The project will exploit recent advances in scanning probe techniques to develop smaller and faster conventional transistors, nanoscale integrated circuits, and address device reproducibility at this scale. This will extend Australia's early lead in atomic-scale silicon electronics to the stage where interested industry partners can evaluate it commercially in a way that will maximise benefits to Australia.Read moreRead less
Atomic Electronics: Precompetitive Research for the Global Semiconductor Industry. The demonstration in Australia that electronic devices in silicon can be fabricated at the atomic-scale has provided a vision for global semiconductor manufacturers. By engaging with leading US companies to tackle the problems industry faces as it attempts to reach this scale, this Fellowship will ensure that Australia remains at the forefront of growing world-wide research into atomic-scale electronics. Equally ....Atomic Electronics: Precompetitive Research for the Global Semiconductor Industry. The demonstration in Australia that electronic devices in silicon can be fabricated at the atomic-scale has provided a vision for global semiconductor manufacturers. By engaging with leading US companies to tackle the problems industry faces as it attempts to reach this scale, this Fellowship will ensure that Australia remains at the forefront of growing world-wide research into atomic-scale electronics. Equally important, by anticipating the problems that electronic device manufacturers are currently facing, and will face over their long-term horizons, the proposed research seeks to provide Australia with a long-term opportunity to lift its involvement in the multi-trillion dollar global semiconductor industry.Read moreRead less
Application of First-principles Theory in Condensed Matter Physics, Surface Physics, Chemistry, and Engineering: Coatings, Catalysis, and Devices. The project addresses areas of high technological interest, namely the development of nitride-based materials for hard-coatings, spintronic (control and use of electron spin) and optoelectronic (in the blue/UV energy range) devices - as well as the area of heterogeneous oxidation catalysis. Using state-of-the-art methods it will lead to the developme ....Application of First-principles Theory in Condensed Matter Physics, Surface Physics, Chemistry, and Engineering: Coatings, Catalysis, and Devices. The project addresses areas of high technological interest, namely the development of nitride-based materials for hard-coatings, spintronic (control and use of electron spin) and optoelectronic (in the blue/UV energy range) devices - as well as the area of heterogeneous oxidation catalysis. Using state-of-the-art methods it will lead to the development of new materials and devices of relevance to industry.Read moreRead less
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