Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0238381
Funder
Australian Research Council
Funding Amount
$100,000.00
Summary
High Sensitivity Broad Range Digitised Electron Microscopy. To install in a central location at Monash University a digital image plate reader and appropriate recording hardware and software as a multi-user facility for high-resolution electron imaging and diffraction. Imaging plates are, in appearance, like photographic film and are used in the electron microscope in the same way. They are, however, nearly a hundred times more sensitive, have a range a hundred thousand times greater, and, when ....High Sensitivity Broad Range Digitised Electron Microscopy. To install in a central location at Monash University a digital image plate reader and appropriate recording hardware and software as a multi-user facility for high-resolution electron imaging and diffraction. Imaging plates are, in appearance, like photographic film and are used in the electron microscope in the same way. They are, however, nearly a hundred times more sensitive, have a range a hundred thousand times greater, and, when interrogated by a reader, generate a digitised output and can then be used again. We propose to exploit those characteristics in the study of advanced materials, in the investigation of phases changes, and in the characterisation of materials not sufficiently stable in the electron beam to observe by more conventional methods.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0989180
Funder
Australian Research Council
Funding Amount
$150,000.00
Summary
Facility for studying the sorption properties of gases by nanostructured materials. The climate debate has put the issues that this research will address at the forefront of community concern. All of the initiatives discussed herein are relevant to alternative energy sources and greenhouse gas reduction. The facility will ensure that the research undertaken will be internationally cutting edge and will hasten the adoption of technologies that will flow from the research, thereby reducing the e ....Facility for studying the sorption properties of gases by nanostructured materials. The climate debate has put the issues that this research will address at the forefront of community concern. All of the initiatives discussed herein are relevant to alternative energy sources and greenhouse gas reduction. The facility will ensure that the research undertaken will be internationally cutting edge and will hasten the adoption of technologies that will flow from the research, thereby reducing the effects of the impending energy crisis and related global pollution issues. The current capability for accurately measuring gas sorption in materials for storage and sequestration is limited in W.A. and the proposed facility will address this situation.Read moreRead less
Lithium/Sulfur rechargeable battery for power applications. The Lithium/Sulphur battery system is very promising for large-scale power applications as it has the highest energy density and lowest cost among various types of rechargeable batteries. However, the degradation of the capacity and short cycle life of Li/S battery have been problematic for commercial development. The aim of this project is to study the mechanisms of capacity fading and to develop effective means such as use of carbon n ....Lithium/Sulfur rechargeable battery for power applications. The Lithium/Sulphur battery system is very promising for large-scale power applications as it has the highest energy density and lowest cost among various types of rechargeable batteries. However, the degradation of the capacity and short cycle life of Li/S battery have been problematic for commercial development. The aim of this project is to study the mechanisms of capacity fading and to develop effective means such as use of carbon nanotubes and nanosize composite absorbents to improve the cycle life of Li/S batteries. The expected outcomes are the development of sulphur-containing cathode materials and polymer electrolytes, enabling electric vehicles to be a technically competitive and environmentally superior transportation option.Read moreRead less
Investigation of Nano-materials for use in Lithium Rechargable Batteries. Lithium ion batteries are emerging as a new generation of rechargeable batteries for power sources of portable electronics. The aim of this project is to explore potential applications of novel nano-materials such as intermetallic alloys, transition-metal oxides, and carbon nanotubes as anode materials in lithium-ion rechargeable batteries. Significance and expected outcomes will be the development of alternative anode ma ....Investigation of Nano-materials for use in Lithium Rechargable Batteries. Lithium ion batteries are emerging as a new generation of rechargeable batteries for power sources of portable electronics. The aim of this project is to explore potential applications of novel nano-materials such as intermetallic alloys, transition-metal oxides, and carbon nanotubes as anode materials in lithium-ion rechargeable batteries. Significance and expected outcomes will be the development of alternative anode materials with improved performance in energy capacity and cycle life over existing anode materials. This could open opportunities for Australian mineral companies to take advantage of the developments to produce value-added new products.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668469
Funder
Australian Research Council
Funding Amount
$195,000.00
Summary
The Rapid Kinetics Research Facility - an Integrated system for rapid kinetic studies of materials using synchrotron radiation. The Rapid Kinetics Research Facility will provide Australian researchers with the tools to follow and understand very rapid processes within advanced materials. This will greatly assist in: i) the development of more efficient materials processing technologies, ii) the development of advanced catalysts able to neutralize pollutants and reduce the energy cost of industri ....The Rapid Kinetics Research Facility - an Integrated system for rapid kinetic studies of materials using synchrotron radiation. The Rapid Kinetics Research Facility will provide Australian researchers with the tools to follow and understand very rapid processes within advanced materials. This will greatly assist in: i) the development of more efficient materials processing technologies, ii) the development of advanced catalysts able to neutralize pollutants and reduce the energy cost of industrial processes, iii) the development of viable hydrogen fuel storage media and iv) the training of young Australian researchers in advanced methods of materials characterization. Read moreRead less