Fault-tolerant operation and scale-up of a silicon quantum computer beyond laboratory prototypes. The Centre for Quantum Computer Technology's mission is the construction of a prototype few-qubit silicon quantum processor to demonstrate the feasibility of this breakthrough technology for massively parallel computation. This application will initiate a new strategic research program within the Centre to address the key issue of interfacing laboratory with silicon CMOS microelectronics. The Hybrid ....Fault-tolerant operation and scale-up of a silicon quantum computer beyond laboratory prototypes. The Centre for Quantum Computer Technology's mission is the construction of a prototype few-qubit silicon quantum processor to demonstrate the feasibility of this breakthrough technology for massively parallel computation. This application will initiate a new strategic research program within the Centre to address the key issue of interfacing laboratory with silicon CMOS microelectronics. The Hybrid Quantum- Conventional Processor will provide calibrated gate control and readout of individual buried atom quantum bits,to run logic operations with quantum error correction. This program will require a deep understanding of physics issues to develop fault tolerant coherent control of qubit arrays for real applications.Read moreRead less
Multiscale Integrated Modelling and Control of an Ethanol-Fuelled Tubular Solid Oxide Fuel Cell. The results from this project will allow use of alternative sources for energy through a better understanding of the functioning, design, operability and control of SOFCs. Fuel Cells (FCs) with biomass ethanol feed will not only act as reliable power source but also reduce greenhouse gas emissions. A successful R&D effort to develop FCs will improve the national energy security by reducing the growin ....Multiscale Integrated Modelling and Control of an Ethanol-Fuelled Tubular Solid Oxide Fuel Cell. The results from this project will allow use of alternative sources for energy through a better understanding of the functioning, design, operability and control of SOFCs. Fuel Cells (FCs) with biomass ethanol feed will not only act as reliable power source but also reduce greenhouse gas emissions. A successful R&D effort to develop FCs will improve the national energy security by reducing the growing dependency on foreign energy sources, improve the environment by reducing carbon and other harmful emissions, and improve the economic growth by expanding the portfolio of highly efficient energy and useful spill over technologies. Read moreRead less
Magnetic walls as nano-manipulators for physics, bio- and medical technologies. The focus of this project is the development of new scientific and technological aspects of nanomanipulators allowing not only the effective control of molecules and other magnetic quantities for a new approach in computation, but also the vital influence of biological processes at the molecular level. The outlook of this idea becomes increasingly promising in science and a broad range of industries (electronics, mat ....Magnetic walls as nano-manipulators for physics, bio- and medical technologies. The focus of this project is the development of new scientific and technological aspects of nanomanipulators allowing not only the effective control of molecules and other magnetic quantities for a new approach in computation, but also the vital influence of biological processes at the molecular level. The outlook of this idea becomes increasingly promising in science and a broad range of industries (electronics, materials engineering, nanotechnology and biotechnology). This project will establish Australia's capability at the forefront in this rapidly advancing area. The outcomes predicted may soon lead to the development of practical devices, where Australian science and industry may play one of the key roles.Read moreRead less
Enabling next-generation high-efficiency visible laser sources through advanced waveguide engineering. Lithium niobate has the potential to become the silicon of the optoelectronic industry. In order to realise its potential, fundamental problems associated with long term stability and cost of integration need to be solved. This project will develop a new hybrid fabrication platform that circumvents the traditional approaches pursued in the past for introducing waveguides into a lithium niobate ....Enabling next-generation high-efficiency visible laser sources through advanced waveguide engineering. Lithium niobate has the potential to become the silicon of the optoelectronic industry. In order to realise its potential, fundamental problems associated with long term stability and cost of integration need to be solved. This project will develop a new hybrid fabrication platform that circumvents the traditional approaches pursued in the past for introducing waveguides into a lithium niobate chip. This platform will enable the production of robust, low cost light sources for fields as diverse as biotechnology, environmental sensing and displays. This project will lead to new IP that will establish Australia as a leader in this field.Read moreRead less
Advanced Polymer Electrolytes for Device Applications. The future of an energy sustainable society relies upon the development of a range of technologies that will involve devices such as lithium batteries, supercapacitors, sensors and fuel cells. One of the key challenges is the discovery and development of high performance materials which overcome performance limiting issues such as conductivity, durability and stability in current devices. Our recent discovery of novel successful approaches ....Advanced Polymer Electrolytes for Device Applications. The future of an energy sustainable society relies upon the development of a range of technologies that will involve devices such as lithium batteries, supercapacitors, sensors and fuel cells. One of the key challenges is the discovery and development of high performance materials which overcome performance limiting issues such as conductivity, durability and stability in current devices. Our recent discovery of novel successful approaches to the design of improved electrolyte materials will be systematically exploited to develop materials that will provide the significant advance in device performance that is required.Read moreRead less
Novel Motion Correction Technologies for Simultaneous Positron Emission Tomography and Magnetic Resonance Imaging. The recent development of the world's first prototype combined MR-PET scanner for human use has prompted immense interest. MR-PET is likely to revolutionize clinical diagnosis and basic research, by providing exquisite structural images co-registered with simultaneous functional PET images. We will exploit the as yet unexplored potential for motion information derived from the MR sy ....Novel Motion Correction Technologies for Simultaneous Positron Emission Tomography and Magnetic Resonance Imaging. The recent development of the world's first prototype combined MR-PET scanner for human use has prompted immense interest. MR-PET is likely to revolutionize clinical diagnosis and basic research, by providing exquisite structural images co-registered with simultaneous functional PET images. We will exploit the as yet unexplored potential for motion information derived from the MR system to be used to correct the simultaneously acquired PET data for patient motion. This research is an excellent opportunity for Australian researchers to make important contributions to an emerging technology with high economic potential, and will strengthen Australia's international position in engineering and biomedical systems development.Read moreRead less
Next generation evaporated and laser diode processed thin-film silicon-on-glass solar cells. The project targets a new generation of low-cost silicon solar cell that will significantly reduce the costs of generating electricity from sunlight by depositing cells onto glass as it comes from a glass factory. Solar cells are presently the world's most rapidly growing energy source, with Australians and Australian companies already major players in the associated rapidly expanding industry. Solar cel ....Next generation evaporated and laser diode processed thin-film silicon-on-glass solar cells. The project targets a new generation of low-cost silicon solar cell that will significantly reduce the costs of generating electricity from sunlight by depositing cells onto glass as it comes from a glass factory. Solar cells are presently the world's most rapidly growing energy source, with Australians and Australian companies already major players in the associated rapidly expanding industry. Solar cells represent the cleanest and most acceptable technology yet suggested for supplying the world's future energy needs. A cleaner future environment than otherwise likely is another expected outcome as is the creation of major new opportunities for Australian industry.Read moreRead less
The role of location on the effectiveness of smoke alarms. Smoke alarms in buildings are required by the Building Code of Australia (BCA), but the current requirements are less than optimal. This project will provide the basis for optimisation of smoke alarms and the number, interconnection and positioning of smoke alarms in residential buildings. This is expected to lead to reductions in fire fatalities, injuries and property loss.
Production of hydrogen from biomass by integrated catalytic aqueous hydrolysis and reforming in subcritical water. The outcomes of this project will lead to the development of a novel process for efficient and cost-effective hydrogen production from renewable biomass using integrated hydrolysis and catalytic aqueous reforming at low temperatures. Such technological innovation will provide significant benefits to Australia as a whole for transition to a truly sustainable hydrogen economy. The nov ....Production of hydrogen from biomass by integrated catalytic aqueous hydrolysis and reforming in subcritical water. The outcomes of this project will lead to the development of a novel process for efficient and cost-effective hydrogen production from renewable biomass using integrated hydrolysis and catalytic aqueous reforming at low temperatures. Such technological innovation will provide significant benefits to Australia as a whole for transition to a truly sustainable hydrogen economy. The novel reaction system and research methodologies proposed in this proposal will certainly enhance Australia's science and technology capability and international competitiveness, in the area of reaction engineering. Also of the national benefit is the successful training of a postgraduate at PhD level who will no doubt add to future scientific research workforce.Read moreRead less
High efficiency thin-film gallium arsenide solar cells. Recent developments in GaAs-based solar cells have led to efficiencies above 30%. Widespread adoption of GaAs-based solar cells for space applications has also brought about large reductions in material costs. However, GaAs cells are still much more expensive than silicon cells. This application addresses the development of a manufacturable technique for lifting off thin films of GaAs. This approach allows a significantly reduced cost due ....High efficiency thin-film gallium arsenide solar cells. Recent developments in GaAs-based solar cells have led to efficiencies above 30%. Widespread adoption of GaAs-based solar cells for space applications has also brought about large reductions in material costs. However, GaAs cells are still much more expensive than silicon cells. This application addresses the development of a manufacturable technique for lifting off thin films of GaAs. This approach allows a significantly reduced cost due to reduced materials usage, while maintaining high efficiency. Light-trapping for lifted-off cells will also be developed, which will allow the theoretical limit to performance to be approached, and fundamental processes in GaAs to be investigated.
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