Switching mechanisms in nonvolatile resistive memory using high-k dielectrics. Growth in the use of portable electronic devices, such as cameras, phones and MP3 players has resulted in an increased demand for low-power, high-density, non-volatile memory (NVM). One class of such memories aims to use resistance changes in thin dielectric films as a means of storing information. This project aims to develop a better understanding of these devices and to develop new and innovative processes for co ....Switching mechanisms in nonvolatile resistive memory using high-k dielectrics. Growth in the use of portable electronic devices, such as cameras, phones and MP3 players has resulted in an increased demand for low-power, high-density, non-volatile memory (NVM). One class of such memories aims to use resistance changes in thin dielectric films as a means of storing information. This project aims to develop a better understanding of these devices and to develop new and innovative processes for controlling data storage. The project is based on collaboration between researchers at the ANU and Silanna, an Australian start-up company aiming to develop and commercialise such technology.Read moreRead less
Exploring the Fundamentals of Atomically Precise Manufacturing with Scanning Probe Microscopes. Over the past five years, Australian researchers have pioneered the development of a new method for fabricating electrical devices in silicon with atomic precision. By partnering with the world leader in nanotechnology manufacturing, these same researchers now have an opportunity to extend Australia's early lead in this area. The proposed research will lead to new capabilities for Australia within the ....Exploring the Fundamentals of Atomically Precise Manufacturing with Scanning Probe Microscopes. Over the past five years, Australian researchers have pioneered the development of a new method for fabricating electrical devices in silicon with atomic precision. By partnering with the world leader in nanotechnology manufacturing, these same researchers now have an opportunity to extend Australia's early lead in this area. The proposed research will lead to new capabilities for Australia within the growing field of electro-mechanical devices. It will strengthen and broaden Australia's leadership in atomic-scale device fabrication in silicon. It will assist world-leading Australian researchers to evaluate and prioritise the commercial potential of their technologies.Read moreRead less
STRUCTURAL ANALYSIS OF SILICON ON SAPPHIRE THIN FILMS GROWN USING SOLID-PHASE EPITAXIAL TECHNIQUES. Devices based on silicon-on-sapphire processing are potentially faster and are prepared with fewer processing steps than those based on conventional silicon processing technology. However, silicon-on-sapphire films prepared by traditional methods are unsatisfactory due to the high densities of defects they contain. The development of solid phase epitaxial processing has lead to significant increas ....STRUCTURAL ANALYSIS OF SILICON ON SAPPHIRE THIN FILMS GROWN USING SOLID-PHASE EPITAXIAL TECHNIQUES. Devices based on silicon-on-sapphire processing are potentially faster and are prepared with fewer processing steps than those based on conventional silicon processing technology. However, silicon-on-sapphire films prepared by traditional methods are unsatisfactory due to the high densities of defects they contain. The development of solid phase epitaxial processing has lead to significant increases in performance. This project will characterize the structures of films grown by this new process, and relate them to both the processing conditions and device performance. A greater understanding of the relationship between processing, structure and properties will assist the commercial development of these devices.Read moreRead less
Minimising charge carrier recombination at silicon surfaces with improved dielectric coatings. The project will help to develop a vibrant PV industry in Australia, creating substantial employment opportunities. Spark Solar - one of the project partners - is the first dedicated PV manufacturer in Australia. There is a large and rapidly expanding overseas export market for solar panels. In addition, the large scale deployment of photovoltaic systems will help to reduce greenhouse gas emissions and ....Minimising charge carrier recombination at silicon surfaces with improved dielectric coatings. The project will help to develop a vibrant PV industry in Australia, creating substantial employment opportunities. Spark Solar - one of the project partners - is the first dedicated PV manufacturer in Australia. There is a large and rapidly expanding overseas export market for solar panels. In addition, the large scale deployment of photovoltaic systems will help to reduce greenhouse gas emissions and thus mitigate the magnitude and severity of the effects of global warming. Read moreRead less
Inception of a Practical, Biomimetic, Flexible Photovoltaic Device. This project will design and synthesise new, complex, functional organic molecules and assemble them to create a new type of photovoltaic cell. This device will be designed using biomimetic principles to emulate many of the efficient photosynthetic solar energy conversion processes that occur in plants. A key feature is that near atomic-level control will be achieved over the entire device structure, facilitating the establish ....Inception of a Practical, Biomimetic, Flexible Photovoltaic Device. This project will design and synthesise new, complex, functional organic molecules and assemble them to create a new type of photovoltaic cell. This device will be designed using biomimetic principles to emulate many of the efficient photosynthetic solar energy conversion processes that occur in plants. A key feature is that near atomic-level control will be achieved over the entire device structure, facilitating the establishment of a clear path towards the commercial production of solar cells that are simultaneously highly efficient, long lasting, flexible, and very cheap to manufacture.Read moreRead less
Diamond membranes for advanced manufacturing. This project aims to unlock the potential of diamond membrane devices in research and industry, by enabling the scalable manufacture of high quality diamond membrane samples. These will be packaged in a form that is easily transportable and with properties that are optimizable and functional for a variety of end-users. This project will allow the distribution of high quality base material to the academic and start-up markets. The expected outcome inc ....Diamond membranes for advanced manufacturing. This project aims to unlock the potential of diamond membrane devices in research and industry, by enabling the scalable manufacture of high quality diamond membrane samples. These will be packaged in a form that is easily transportable and with properties that are optimizable and functional for a variety of end-users. This project will allow the distribution of high quality base material to the academic and start-up markets. The expected outcome includes the development of products in healthcare and security such as infra-red frequency combs for gas-based chemical sensing and nanopore devices for new DNA sequencers.Read moreRead less
Enhancing the performance of high voltage direct current power cables by studying space charge accumulation in their synthetic polymeric insulation. Synthetic polymeric insulation has proved very successful in high voltage alternating current power transmission cables, and cable manufacturers have therefore sought to use it in high voltage direct current (HVDC) cables, for which there is a rapidly growing demand. Yet the accumulation of space charge in such cables presently severely limits the m ....Enhancing the performance of high voltage direct current power cables by studying space charge accumulation in their synthetic polymeric insulation. Synthetic polymeric insulation has proved very successful in high voltage alternating current power transmission cables, and cable manufacturers have therefore sought to use it in high voltage direct current (HVDC) cables, for which there is a rapidly growing demand. Yet the accumulation of space charge in such cables presently severely limits the maximum operating voltage and transmitted power. Nearly all this space charge is due to the temperature gradient in the insulation. We will analyze space charge profiles in polyethylene and other synthetic polymers, and derive basic scientific data which will inform the design of HVDC cables with greatly enhanced performance.Read moreRead less
Switching the light on cartilage repair. Osteoarthritis is a leading cause of pain and disability in adults and affects 15 per cent of the Australian population. This project will develop a revolutionary new approach to treat joint disorders using smart materials and stem cells. The novel materials and techniques developed will help Australia maintain its leading edge in biotechnology.
Controlling light-harvesting with complex perylene arrays. This project aims to artificially mimic photosynthesis. A new class of dye coloured plastics will create a platform technology that could have many applications including enhanced biodiesel production from algae and 'smart' building materials enhancing electricity production from solar cells.
Designing the Next Generation of High Performance Cutting Tools. In order for Australian manufacturers to improve their global competitiveness in the production of manufactured goods it is essential to have access to cost effective high performance cutting tools. This project seeks to meet this challenge by exploiting new pathways in the development of advanced metallic-based vapour deposited coatings. This new approach will provide a much needed opportunity for value adding in the economically ....Designing the Next Generation of High Performance Cutting Tools. In order for Australian manufacturers to improve their global competitiveness in the production of manufactured goods it is essential to have access to cost effective high performance cutting tools. This project seeks to meet this challenge by exploiting new pathways in the development of advanced metallic-based vapour deposited coatings. This new approach will provide a much needed opportunity for value adding in the economically significant area of tribological coatings for industrial components. The outcomes of this project will directly impact on the ability of Sutton Tools, an Australian owned company, to sustain and expand its export markets while adding more broadly to the competitiveness of Australia's manufacturing industry.Read moreRead less