Materials World Network for the Study of Macromolecular Ferrofluids. This work will develop an understanding that will allow us to optimise the properties of ferrofluids (magnetic liquids) to suit particular applications. Although the primary application that will be investigated is the treatment of retinal detachment, the results will be applicable to a wide range of applications including ferrofluid-based actuators, electromagnetic micropumps and fluid based valves and sealing systems. During ....Materials World Network for the Study of Macromolecular Ferrofluids. This work will develop an understanding that will allow us to optimise the properties of ferrofluids (magnetic liquids) to suit particular applications. Although the primary application that will be investigated is the treatment of retinal detachment, the results will be applicable to a wide range of applications including ferrofluid-based actuators, electromagnetic micropumps and fluid based valves and sealing systems. During the course of this work, young Australian scientists will be trained in a cross-disciplinary environment in a variety of aspects of both nano- and bio- technology that are a key part of the National Research Priority: Frontier Technologies for Building and Transforming Australian Industries.Read moreRead less
Unique Chemistry from Radioactive Decay in the Solid-State. Australia is an important member of the international nuclear fuel cycle. It holds one-third of the world's uranium reserves and is a major player in the development of technology for immobilizing radioactive waste. We will use computer simulation to answer a very important question which is extremely difficult to study experimentally: How does radioactive decay inside a solid change the chemistry of the material over time? Not only wil ....Unique Chemistry from Radioactive Decay in the Solid-State. Australia is an important member of the international nuclear fuel cycle. It holds one-third of the world's uranium reserves and is a major player in the development of technology for immobilizing radioactive waste. We will use computer simulation to answer a very important question which is extremely difficult to study experimentally: How does radioactive decay inside a solid change the chemistry of the material over time? Not only will our study improve nuclear waste storage, it will also reveal how in-situ chemical change creates new kinds of solids which cannot be made by conventional means. These solids can exhibit unusual and useful behaviour; this project provides the first investigation of this unexplored technological niche.Read moreRead less
Carbon nanotube fluidic channels for desalination - interplay of nanoscale confinement and electrostatics. Tiny tubes of carbon, ten thousand times smaller than human hair, allow water to pass through at extraordinary speed. This project aims to understand and improve their salt rejection properties using comprehensive experimental and theoretical approaches. This will provide the impetus and knowledge for developing advanced membranes for desalination
Magnetic and electric field tuneable magnetic heterostructures. Australian science and technology will be a leading participant in the creation of a new, useful magneto-electric composite material whose properties arise from careful atomic level design. This goal has been long sought after, and only recently come within reach. Recent proof-of-concept demonstrations have inspired an explosion of activity on a global scale together with intensive searches for additional examples of useful materia ....Magnetic and electric field tuneable magnetic heterostructures. Australian science and technology will be a leading participant in the creation of a new, useful magneto-electric composite material whose properties arise from careful atomic level design. This goal has been long sought after, and only recently come within reach. Recent proof-of-concept demonstrations have inspired an explosion of activity on a global scale together with intensive searches for additional examples of useful material combinations. In this project, young Australian scientists and research students will have opportunities to receive training and become involved in a National Priority Frontier Technology rich in possibilities for generation of intellectual property.Read moreRead less
Memory effects in magnetic metals: origin, utility and control in magnetoelectronics using layered nanopatterns. The work is in the important area of magneto-electronics, a field recognised by the 2007 Nobel Prize awarded in Physics. Training opportunities for Honours and postgraduate students will be provided at the forefront of this high profile area, thereby expanding Australian knowledge base and capability. New opportunities for interaction between several groups in Australia will be create ....Memory effects in magnetic metals: origin, utility and control in magnetoelectronics using layered nanopatterns. The work is in the important area of magneto-electronics, a field recognised by the 2007 Nobel Prize awarded in Physics. Training opportunities for Honours and postgraduate students will be provided at the forefront of this high profile area, thereby expanding Australian knowledge base and capability. New opportunities for interaction between several groups in Australia will be created. The projects will involve PhD students shared between Australian institutions and collaborating groups overseas, thereby cementing collaborations while simultaneously providing unique training environments. The project will use and support activities associated with the Australian major facilities. Read moreRead less
metal hydride reactors for high temperature thermochemical heat storage. The aim of this project is to develop a laboratory-based prototype for energy storage in concentrating solar power (CSP) systems using metal hydrides as a chemical energy storage medium. The successful development of cost-effective energy storage technologies is expected to dramatically increase the deployability of CSP systems and this, in turn, will greatly enhance our capacity to reduce reliance on fossil fuels. The outc ....metal hydride reactors for high temperature thermochemical heat storage. The aim of this project is to develop a laboratory-based prototype for energy storage in concentrating solar power (CSP) systems using metal hydrides as a chemical energy storage medium. The successful development of cost-effective energy storage technologies is expected to dramatically increase the deployability of CSP systems and this, in turn, will greatly enhance our capacity to reduce reliance on fossil fuels. The outcomes of the project are planned to be used towards the development of a commercially viable solar thermal energy storage system. The project also plans to conduct fundamental research into the development of new high-temperature metal hydrides suitable for energy storage in CSP systems.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0453842
Funder
Australian Research Council
Funding Amount
$590,309.00
Summary
National Facility for Electron Spin Correlations and Spintronics. Conventional electronics is based on coupling the charge of the electrons with external electric fields and light. Recent work on spintronics is directed toward the use of both the spin (angular momentum) and the charge degrees of freedom of the electron. We currently lead the world in the development of spin-resolved coincidence measurements, which make it possible to determine previously inaccessible nanoscale magnetic propertie ....National Facility for Electron Spin Correlations and Spintronics. Conventional electronics is based on coupling the charge of the electrons with external electric fields and light. Recent work on spintronics is directed toward the use of both the spin (angular momentum) and the charge degrees of freedom of the electron. We currently lead the world in the development of spin-resolved coincidence measurements, which make it possible to determine previously inaccessible nanoscale magnetic properties, central to 'spintronic structure engineering'. State-of-the-art instrumentation is requested to characterise the magnetic and crystallographic structure, the adsorbates, and the lateral distribution and depth profile of fabricated zero, one and two-dimensional structures.Read moreRead less
Smart utilisation of cobaltite based electrodes on solid oxide fuel cells. This project aims to develop solid oxide fuel cell technologies with significantly simplified fabrication steps and at low cost. It aims to generate fundamental knowledge on the polarisation induced electrode/electrolyte interfaces under fuel cell operation conditions. The advanced fuel cell technologies will in turn substantially increase the energy conversion efficiency and provide significant benefit in the reduction o ....Smart utilisation of cobaltite based electrodes on solid oxide fuel cells. This project aims to develop solid oxide fuel cell technologies with significantly simplified fabrication steps and at low cost. It aims to generate fundamental knowledge on the polarisation induced electrode/electrolyte interfaces under fuel cell operation conditions. The advanced fuel cell technologies will in turn substantially increase the energy conversion efficiency and provide significant benefit in the reduction of greenhouse emission.Read moreRead less
Concentrating solar thermal energy storage using metal hydrides. This project will investigate energy storage for concentrating solar thermal energy systems. These systems can be used to efficiently generate electricity in remote locations, day and night, using solar energy. The solar energy is converted to heat energy and then chemical energy stored in a metal-hydrogen compound.