Controlling precipitation processes in the production of value-added zirconia. Doral Specialty Chemicals produces specialised zirconia products from zircon sands mined in WA. Doping the zirconia with metals such as yttrium and aluminium can produce advanced ceramics, with applications in areas such as solid oxide fuel cells and oxygen sensors. The aim of this project is to improve the fundamental understanding of the chemistry in the initial processing steps, so that the process can be readily m ....Controlling precipitation processes in the production of value-added zirconia. Doral Specialty Chemicals produces specialised zirconia products from zircon sands mined in WA. Doping the zirconia with metals such as yttrium and aluminium can produce advanced ceramics, with applications in areas such as solid oxide fuel cells and oxygen sensors. The aim of this project is to improve the fundamental understanding of the chemistry in the initial processing steps, so that the process can be readily modified to produce new doped zirconia ceramics, without the extensive empirical process development currently required. The resulting ability to quickly produce new compositions on a commercial scale will put this industry in a world-leading position, dramatically increasing the added value of the zirconia products.Read moreRead less
Mapping new cathode materials for aqueous rechargeable batteries: The mechanism of intercalation of lithium in aqueous solutions. This technology could power electric vehicles of the future. With the aid of using advanced oxide and phosphate materials for an aqueous battery, the project will establish a widespread use of green energy for national benefit. This will help us to reduce the current emission observed in transport and energy conversion. The project will facilitate an understanding the ....Mapping new cathode materials for aqueous rechargeable batteries: The mechanism of intercalation of lithium in aqueous solutions. This technology could power electric vehicles of the future. With the aid of using advanced oxide and phosphate materials for an aqueous battery, the project will establish a widespread use of green energy for national benefit. This will help us to reduce the current emission observed in transport and energy conversion. The project will facilitate an understanding the electrochemical energy storage technology. The challenging and significant results from this project will contribute to the energy industries to build non-pollutant high energy storage equipments and productivity of Australia's research and development.Read moreRead less
The investigation of the effects of catalyst doping, element substitution and defects design in carbon materials for hydrogen storage. The successful introduction of an efficient and clean hydrogen economy is contingent on developing a cost-effective storage technology. Carbon materials have demonstrated significant promise in this area. The project aims to investigate the storage capacity of hydrogen in carbon materials by doping catalysts, substituting elements and introducing designed defect ....The investigation of the effects of catalyst doping, element substitution and defects design in carbon materials for hydrogen storage. The successful introduction of an efficient and clean hydrogen economy is contingent on developing a cost-effective storage technology. Carbon materials have demonstrated significant promise in this area. The project aims to investigate the storage capacity of hydrogen in carbon materials by doping catalysts, substituting elements and introducing designed defects into the structures of carbon materials, with both theoretical and experimental methods. This project also aims to foster a long term linkage with the National Institute of Advanced Industrial Science and Technology, Japan thus enhancing Australian Universities's integration with the research institutions overseas in research and developmentRead 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