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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
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
Insight and understanding in Rare-Earth magnetism. Today's technologically driven society relies on magnetic materials to an extent unimaginable even as recently as 20 years ago. Rare-earth transition-metal intermetallics are among the most important magnetic materials, providing the World's strongest magnet with extensive applications. Despite these impressive technological and commercial developments numerous aspects of rare-earth magnetism remain to be developed and resolved. The two innovati ....Insight and understanding in Rare-Earth magnetism. Today's technologically driven society relies on magnetic materials to an extent unimaginable even as recently as 20 years ago. Rare-earth transition-metal intermetallics are among the most important magnetic materials, providing the World's strongest magnet with extensive applications. Despite these impressive technological and commercial developments numerous aspects of rare-earth magnetism remain to be developed and resolved. The two innovative topics we shall research are the critical interplay between the rare-earth and transition-metal sublattices in ternary compounds, enabling us to understand complex compounds, and exploration of a set of quaternary compounds we have recently discovered, thus opening new areas of rare-earth magnetism.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
Time and frequency resolved magnetometry. Magnetism is well known as a source of fundamental unsolved problems in material physics and condensed matter. It is also an area famous for practical application: the ability to record and read information from magnetic materials is the basis of nearly all mass data storage devices. The aim of this project is to provide first measures of certain key energies and rates associated with magnetic processes. Through a combination of theoretical modelling and ....Time and frequency resolved magnetometry. Magnetism is well known as a source of fundamental unsolved problems in material physics and condensed matter. It is also an area famous for practical application: the ability to record and read information from magnetic materials is the basis of nearly all mass data storage devices. The aim of this project is to provide first measures of certain key energies and rates associated with magnetic processes. Through a combination of theoretical modelling and experiment design, a new experimental technique will be developed into a powerful analysis tool. This work will establish the technique in Australia and create new opportunities for future study.
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Theoretical and experimental studies of exchange bias in thin films. Films containing layers of different types of magnetic materials - in particular, ferromagnetic and antiferromagnetic - have properties which are being exploited in magneto-electronic devices used in recording and manipulation of computer data. These properties are determined by new types of magnetisation processes in the interface between layers. In this project investigations of the magnetic behaviour of interfaces will be ma ....Theoretical and experimental studies of exchange bias in thin films. Films containing layers of different types of magnetic materials - in particular, ferromagnetic and antiferromagnetic - have properties which are being exploited in magneto-electronic devices used in recording and manipulation of computer data. These properties are determined by new types of magnetisation processes in the interface between layers. In this project investigations of the magnetic behaviour of interfaces will be made to provide information of value in the design and optimisation of new and existing devices. The procedures to be developed in this project will be applicable to the understanding of the behaviour of a new range of atomically engineered magnetic structures.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
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
Nanoclusters with Extraordinary Properties Made out of Ordinary Materials. Ultrafast laser deposition - a process pioneered by the Applicants - has already demonstrated record yields in the production of carbon-based nano-clustered materials with better control over the size of the nano-particles than any other process. This project aims to improve fundamental understanding of the ultra-fast laser deposition method of nano-fabrication through theoretical and experimental studies, which accurate ....Nanoclusters with Extraordinary Properties Made out of Ordinary Materials. Ultrafast laser deposition - a process pioneered by the Applicants - has already demonstrated record yields in the production of carbon-based nano-clustered materials with better control over the size of the nano-particles than any other process. This project aims to improve fundamental understanding of the ultra-fast laser deposition method of nano-fabrication through theoretical and experimental studies, which accurately correlate the ablation conditions to the structural, electronic, magnetic and optical properties of resulting nano-particles. The results will be applied to efficiently produce nano-clustered materials with tuneable properties for a wide range of new technologies such as spintronics, biophotonics, and nanoclinics.Read moreRead less
Redesigning the transistor at the atomic-scale. Australian researchers have a world-wide leadership position in atomic-scale electronics. Through the development of powerful new fabrication technologies, Australian scientists are now poised to uncover the physical properties of electronic systems operating on the atomic-scale. This research will be internationally significant, providing ongoing international profile for Australian science. Perhaps more significantly, it will also lay the groundw ....Redesigning the transistor at the atomic-scale. Australian researchers have a world-wide leadership position in atomic-scale electronics. Through the development of powerful new fabrication technologies, Australian scientists are now poised to uncover the physical properties of electronic systems operating on the atomic-scale. This research will be internationally significant, providing ongoing international profile for Australian science. Perhaps more significantly, it will also lay the groundwork for future miniaturisation - and redesign - of the conventional transistor. Over the longer-term, it offers an opportunity for Australia to lift its involvement in the multi-trillion dollar global semiconductor industry.Read moreRead less