Vertically-aligned Single-walled Carbon Nanotube and Quantum Dot Junctions: A New Concept for Optically-tunable Three-dimensional Information Storage and Processing. The proposed study will have a direct impact to computer science and engineering and may provide new routes for application-oriented optoelectronic devices with outstanding performance. As industry gets closer to the realization of nanoscale applications, there will be a need of people who are educated in nanoscience and nanotechnol ....Vertically-aligned Single-walled Carbon Nanotube and Quantum Dot Junctions: A New Concept for Optically-tunable Three-dimensional Information Storage and Processing. The proposed study will have a direct impact to computer science and engineering and may provide new routes for application-oriented optoelectronic devices with outstanding performance. As industry gets closer to the realization of nanoscale applications, there will be a need of people who are educated in nanoscience and nanotechnology. This project will involve postdoctoral, graduate, undergraduate, high school, and minority students from multidisciplinary backgrounds to work together on the development of a common platform. Read moreRead less
Self-organised complex ionised gas systems for ordered nanometre-scale assemblies. This proposal is to develop the physical principles of nano-scale assembly processes in complex plasmas. Novel approaches for tailoring the plasma-grown building blocks and controllable deposition of ordered nanoparticle arrays on nanopatterned solids are targeted. The fundamentals of the multi-scale dynamic processes will be elucidated and existing techniques for developing new materials and electronic/photonic d ....Self-organised complex ionised gas systems for ordered nanometre-scale assemblies. This proposal is to develop the physical principles of nano-scale assembly processes in complex plasmas. Novel approaches for tailoring the plasma-grown building blocks and controllable deposition of ordered nanoparticle arrays on nanopatterned solids are targeted. The fundamentals of the multi-scale dynamic processes will be elucidated and existing techniques for developing new materials and electronic/photonic devices will be advanced. The expected outcomes are highly relevant for the nano-materials and optoelectronic technologies, rapidly emerging areas of high-tech industries worldwide.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0560959
Funder
Australian Research Council
Funding Amount
$165,000.00
Summary
The Macquarie National Low Temperature Optoelectronic Thin Film Growth Facility. Funding is requested for an Australian facility for the growth of nitride and oxide thin films with in-situ optical analysis equipment for the monitoring of growth parameters. It is envisaged that this facility would be for the development of materials and device structures for photonic, electronic and optoelectronic applications. The facility will also provide a leading Australian source of these materials for fund ....The Macquarie National Low Temperature Optoelectronic Thin Film Growth Facility. Funding is requested for an Australian facility for the growth of nitride and oxide thin films with in-situ optical analysis equipment for the monitoring of growth parameters. It is envisaged that this facility would be for the development of materials and device structures for photonic, electronic and optoelectronic applications. The facility will also provide a leading Australian source of these materials for fundamental material studies utilising nuclear analysis and implantation technologies, high resolution X-ray diffraction, high spatial resolution micro-cathodoluminescence and other forms of analysis. Ex-situ optical analysis equipment is also requested for post-growth evaluation to compliment and evaluate the in-situ analysis.Read moreRead less
Power scaling of remote plasma sources for gallium nitride film growth with real-time monitoring of activated nitrogen species. Domestic, industrial and community lighting currently accounts for ~20% of the world's overall energy consumption. Commonly used incandescent lights are based on inefficient, century-old technologies. In contrast, light emitting diodes (LEDs) use ~80% less energy and last ~100 times longer. LED deployment will bring substantial economic and environmental benefits for Au ....Power scaling of remote plasma sources for gallium nitride film growth with real-time monitoring of activated nitrogen species. Domestic, industrial and community lighting currently accounts for ~20% of the world's overall energy consumption. Commonly used incandescent lights are based on inefficient, century-old technologies. In contrast, light emitting diodes (LEDs) use ~80% less energy and last ~100 times longer. LED deployment will bring substantial economic and environmental benefits for Australia and globally. Next generation high-efficiency LEDs for lighting, will operate with reduced energy consumption, thus contributing to reaching future national targets for CO2 emission reduction. This project will achieve reduced production cost of a key LED material, and will support Australia's leadership in a growing global semiconductor manufacturing industry.Read moreRead less
Deterministic plasma-aided nanoassembly: from elementary processes to industry-grade nano- and biomaterials. This collaborative project aims to develop new approaches for the improved plasma-based synthesis of selected nano- and biomaterials that will comply with the relevant industry standards. It is based on extensive international research networking and will ultimately lead to a major breakthrough in highly-controlled plasma-aided synthesis of advanced functional materials and devices. The p ....Deterministic plasma-aided nanoassembly: from elementary processes to industry-grade nano- and biomaterials. This collaborative project aims to develop new approaches for the improved plasma-based synthesis of selected nano- and biomaterials that will comply with the relevant industry standards. It is based on extensive international research networking and will ultimately lead to a major breakthrough in highly-controlled plasma-aided synthesis of advanced functional materials and devices. The project outcomes will attract the interest of established and emerging industries in Australia, Singapore and other countries, and will be useful for the development of small high-tech companies in Australia. This project is ideally suited for training of early-career postdoctoral researchers and research students of competitive international standing.Read moreRead less
Plasma nanotools: bridging plasma physics and surface science. This project will herald a new frontier research area at the edge of plasma physics and surface science, secure and strengthen Australia's presence in newly emerging nanotechnology fields, reveal the superior potential of and raise the global high-tech market sentiment in plasma-aided nanofabrication of flat display panels, biosensors, nanoelectronic devices, smart nanomaterials, and other high-tech products. The outcomes will ultima ....Plasma nanotools: bridging plasma physics and surface science. This project will herald a new frontier research area at the edge of plasma physics and surface science, secure and strengthen Australia's presence in newly emerging nanotechnology fields, reveal the superior potential of and raise the global high-tech market sentiment in plasma-aided nanofabrication of flat display panels, biosensors, nanoelectronic devices, smart nanomaterials, and other high-tech products. The outcomes will ultimately lead to new environment-friendly and cost-efficient plasma-based technologies and nanofabrication and nanotooling industries in Australia. High profile of Australia-based research will be raised via a new network of international collaborations and low-cost involvement into forefront research programs.Read moreRead less