Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0347797
Funder
Australian Research Council
Funding Amount
$263,000.00
Summary
A Versatile High-resolution X-ray Diffractometer for Materials Research. The aim of this project is to establish a state-of-the-art triple-axis x-ray diffraction facility capable of non-destructively analysing complex semiconductor materials and structures investigated by all Australian semiconductor-growing groups. Growers and device engineers will be able to control growth processes accurately and correlate device performance with structural analysis. Modern triple-axis instruments can also b ....A Versatile High-resolution X-ray Diffractometer for Materials Research. The aim of this project is to establish a state-of-the-art triple-axis x-ray diffraction facility capable of non-destructively analysing complex semiconductor materials and structures investigated by all Australian semiconductor-growing groups. Growers and device engineers will be able to control growth processes accurately and correlate device performance with structural analysis. Modern triple-axis instruments can also be used for high-resolution texture analysis and surface reflectivity measurements on numerous types of materials. Thus chemists, geologists, and materials scientists with interests outside of the semiconductor growth community will gain substantial benefit from this instrument for the investigation of materials of technological and economic importance.Read moreRead less
Magnetically controlled drug release from tissue scaffolds for the treatment of acute burns. Severe skin burns are frequently associated with functionally disabling scarring and the risk of death. New magnetically activated wound seals for the treatment of acute burns will be developed that reduce the need for frequent painful dressing changes and hence facilitate rapid healing with a significantly reduced chance of scarring.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775646
Funder
Australian Research Council
Funding Amount
$636,000.00
Summary
Surface and Magnetic structure of crystalline materials. This proposal brings together significant research groups in La Trobe University, Monash University, the University of Western Australia, Newcastle University and Sydney University to establish a unique materials characterisation facility which will enable surface and magnetic structures of technologically significant materials to be determined. It will support developments in the areas of new magnetic phenomenon which is used in magnetic ....Surface and Magnetic structure of crystalline materials. This proposal brings together significant research groups in La Trobe University, Monash University, the University of Western Australia, Newcastle University and Sydney University to establish a unique materials characterisation facility which will enable surface and magnetic structures of technologically significant materials to be determined. It will support developments in the areas of new magnetic phenomenon which is used in magnetic sensing and in the exploration of processes of size reduction for electronic devices. It will enable this new, world leading technology, to be applied to surface structures relevant in the areas of nanotechnology and catalysis.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668065
Funder
Australian Research Council
Funding Amount
$623,000.00
Summary
High resolution images of surfaces. This proposal brings together significant research groups in La Trobe University, Macquarie University, the University of Western Australia and ANSTO to work in areas which will enhance Australia's capability in the area of Magnetic devices and spintronics. It will support developments in the areas of new magnetic phenomenon which is used in magnetic sensing and in the exploration of processes of size reduction for electronic devices. It will enhance the acc ....High resolution images of surfaces. This proposal brings together significant research groups in La Trobe University, Macquarie University, the University of Western Australia and ANSTO to work in areas which will enhance Australia's capability in the area of Magnetic devices and spintronics. It will support developments in the areas of new magnetic phenomenon which is used in magnetic sensing and in the exploration of processes of size reduction for electronic devices. It will enhance the access of undergraduates and postgraduates to the emerging technologies. It will connect Australia to internationally significant research outcomes leading to, for example, new magnetic and electronic devices with a continuing decrease in their size. Read moreRead less
Magnetic Nanostructures for Emerging Technologies: Experimental and Theoretical studies. This project enables collaborations between Australian and European groups in an important and expanding area at the forefront of technology, and facilitates access to state of the art resources in laboratories in Austria and Spain. It carries across knowledge in synchrotron techniques just at the right time, just before the Australian synchrotron goes on line in 2008, allowing time to deepen expertise and t ....Magnetic Nanostructures for Emerging Technologies: Experimental and Theoretical studies. This project enables collaborations between Australian and European groups in an important and expanding area at the forefront of technology, and facilitates access to state of the art resources in laboratories in Austria and Spain. It carries across knowledge in synchrotron techniques just at the right time, just before the Australian synchrotron goes on line in 2008, allowing time to deepen expertise and to obtain specific knowledge. It will help establish a new effort at the University of Western Australia concentrated on developing advanced materials for technology. We will make important contributions to an internationally important area and offer high quality interdisciplinary research training in magnetic nanomaterials science.Read moreRead less
Fast and slow dynamics at coupled magnetic interfaces: Theory and Experiment. Immediate needs for advances in materials for spin electronics and information technology require a deeper physical understanding of new materials in which interfaces and nanometre dimensions determine properties. Interfacial exchange coupling between magnetic layers is a key issue in the formation of many multilayer structures, and several important issues remain unresolved. This is a proposal for a joint theoretical ....Fast and slow dynamics at coupled magnetic interfaces: Theory and Experiment. Immediate needs for advances in materials for spin electronics and information technology require a deeper physical understanding of new materials in which interfaces and nanometre dimensions determine properties. Interfacial exchange coupling between magnetic layers is a key issue in the formation of many multilayer structures, and several important issues remain unresolved. This is a proposal for a joint theoretical and experimental study of technologically important magnetic interfaces by groups at Universities of Florence, Perugia, Leeds and Western Australia.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE100100081
Funder
Australian Research Council
Funding Amount
$600,000.00
Summary
Combined scanning tunnelling microscope system for materials characterisation and manipulation at nano scale. The proposed facility is unique in Australia and will substantially enhance national research capabilities in nano-materials, nanotechnology and biotechnology. The proposed infrastructure project will bring more than 20 leading Australian research groups from 10 institutions together to create an outstanding platform to underpin close collaborations among members in a broad field. The pr ....Combined scanning tunnelling microscope system for materials characterisation and manipulation at nano scale. The proposed facility is unique in Australia and will substantially enhance national research capabilities in nano-materials, nanotechnology and biotechnology. The proposed infrastructure project will bring more than 20 leading Australian research groups from 10 institutions together to create an outstanding platform to underpin close collaborations among members in a broad field. The proposed facility will provide significant benefits to Australian researchers in drug design and delivery, nano-material design and characterisation at nano scale for advanced materials, and promotion of renewable energy. This represents a great opportunity to make discoveries and breakthroughs in frontier science and technology in Australia.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
Solid-State Battery Interface Design (SS-BID). This research project aims to use the world’s best performing solid-state ion conductors to develop next generation solid-state batteries. Boron-rich electrolytes will be paired with lithium metal anodes to construct batteries that are more energy dense, safer, have wider operational temperature windows, and aim to be lower cost than existing Li-ion batteries. The current roadblock for these batteries lies in the poorly performing interfaces between ....Solid-State Battery Interface Design (SS-BID). This research project aims to use the world’s best performing solid-state ion conductors to develop next generation solid-state batteries. Boron-rich electrolytes will be paired with lithium metal anodes to construct batteries that are more energy dense, safer, have wider operational temperature windows, and aim to be lower cost than existing Li-ion batteries. The current roadblock for these batteries lies in the poorly performing interfaces between anode, electrolyte and cathode. This research aims to develop new strategies to overcome these barriers and perform world-class measurement techniques to understand and optimise solid-state batteries to provide a commercially viable energy storage solution.Read moreRead less