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TiO2 nanoparticle design and photocatalysis applications. The aim is to design nanosized TiO2 photocatalsysts with superior photoactivity using various synthesis paths. Nanosized TiO2 particles will be prepared using sol-gel, aerosol and plasma processing, their physical and chemical properties will be closely studied and their photocatalytic ability will be assessed. Such tailor-made photocatalysts have significant commercial potential value, as they would be highly suitable for the photooxidat ....TiO2 nanoparticle design and photocatalysis applications. The aim is to design nanosized TiO2 photocatalsysts with superior photoactivity using various synthesis paths. Nanosized TiO2 particles will be prepared using sol-gel, aerosol and plasma processing, their physical and chemical properties will be closely studied and their photocatalytic ability will be assessed. Such tailor-made photocatalysts have significant commercial potential value, as they would be highly suitable for the photooxidation of organic compounds and the photoreduction of metal ions in wastewaters. Findings from this work will pave the way for a "green" technology such as photocatalysis to become more efficient and hence a competitive alternative to conventional water treatment methods.Read moreRead less
Experimental and Theoretical Studies of Vanadium Oxide Nanostructures and Their Functional Properties. This project is primarily devoted to material science and nanotechnology, one of the cutting-edge areas in Australia's National Research Priority. Successful completion of this project will result in controlled synthesis, functional assembly and fundamental understanding of vanadium oxide nanostructures. The research findings will be useful for developing new and complex nanostructures for func ....Experimental and Theoretical Studies of Vanadium Oxide Nanostructures and Their Functional Properties. This project is primarily devoted to material science and nanotechnology, one of the cutting-edge areas in Australia's National Research Priority. Successful completion of this project will result in controlled synthesis, functional assembly and fundamental understanding of vanadium oxide nanostructures. The research findings will be useful for developing new and complex nanostructures for functional applications in lithium ionic batteries, catalysts and gas sensors. The conduct of this project will significantly expand the knowledge creativity of Australia in research in advanced materials.Read moreRead less
Organometallic Transformations of Organic Molecules. Simple hydrocarbons such as natural gas and petroleum are amongst the most abundant and readily available natural feedstocks for the organic chemical industry. However, apart from simply burning them for fuel, there are very few methods for using these materials as starting materials for industry. In chemical terms, simple hydrocarbons are very stable and this makes them difficult substances to convert cleanly to other more useful compounds. ....Organometallic Transformations of Organic Molecules. Simple hydrocarbons such as natural gas and petroleum are amongst the most abundant and readily available natural feedstocks for the organic chemical industry. However, apart from simply burning them for fuel, there are very few methods for using these materials as starting materials for industry. In chemical terms, simple hydrocarbons are very stable and this makes them difficult substances to convert cleanly to other more useful compounds. This research program investigates new approaches for converting hydrocarbons to more useful materials by using metals such as iron and ruthenium. This research program will provide a new route to ?value-added? products from hydrocarbons and develop new uses for these abundant raw materials.Read moreRead less
Developing New Cathode Materials for Lithium-ion Batteries Using Australian Mineral Resources. This project will bring together expertise in electrochmistry, materials science and structure characterisation to conduct collaborative research with Australian industry partners, Queensland Nickel Technology Pty Ltd and Sons of Gwalia Ltd. The aims of this project will be to investigate a series of cathode materials for use in lithium-ion batteries. The significance of this research is that the tech ....Developing New Cathode Materials for Lithium-ion Batteries Using Australian Mineral Resources. This project will bring together expertise in electrochmistry, materials science and structure characterisation to conduct collaborative research with Australian industry partners, Queensland Nickel Technology Pty Ltd and Sons of Gwalia Ltd. The aims of this project will be to investigate a series of cathode materials for use in lithium-ion batteries. The significance of this research is that the technology for preparing a series of new electrode materials for lithium-ion batteries will be developed by taking advantage of abundant Australian minerals resourecs. The expected outcomes will be to identify several new cathode materials with high energy density, long cycle life, low toxity and low cost.Read moreRead less
Composite cathode Materials for Lithium Ion Battery Using Chemical Coating Technique. Commercial Li-ion batteries have LiCoO2 as a cathode material due to its excellent cycle stability and rate capability. However, cobalt is a relatively rare and very expensive transition metal, so attention has been focussed on LiMn2O4 with a view to taking advantage of its low cost and environmentally friendly nature compared to LiCoO2. The aim of this develop new composite cathode materials by using a LCo02. ....Composite cathode Materials for Lithium Ion Battery Using Chemical Coating Technique. Commercial Li-ion batteries have LiCoO2 as a cathode material due to its excellent cycle stability and rate capability. However, cobalt is a relatively rare and very expensive transition metal, so attention has been focussed on LiMn2O4 with a view to taking advantage of its low cost and environmentally friendly nature compared to LiCoO2. The aim of this develop new composite cathode materials by using a LCo02. The aim of this project is to develop new composite cathode materials by using a LCo02 coating on Li-Mn-0 materials. The expected outcome is a new cathode material which has high-energy capacity, long cycle life and low cost.Read moreRead less
New Catalysed Routes to the Efficient Synthesis of Biologically Active Molecules. Enhancing the economic viability and the energy efficiency of chemical transformations is of fundamental importance in the chemicals industry, and is essential in the targeted production of drugs and fine chemicals for frontier technologies. By using multiple metal centres to simultaneously promote series of reaction steps in a single pot, this project will develop an innovative approach to efficient syntheses of b ....New Catalysed Routes to the Efficient Synthesis of Biologically Active Molecules. Enhancing the economic viability and the energy efficiency of chemical transformations is of fundamental importance in the chemicals industry, and is essential in the targeted production of drugs and fine chemicals for frontier technologies. By using multiple metal centres to simultaneously promote series of reaction steps in a single pot, this project will develop an innovative approach to efficient syntheses of biologically active molecules. The new methods and new catalysts for enhancing the synthesis of highly functionalised compounds will improve significantly the environmental impact of chemical processes by reducing the amount of chemicals required, and reducing waste and energy requirements.Read moreRead less
Novel Nanostructures of Metal Oxides and Sulfides Intercalated Laponite for Catalytic Applications. The project aims to develop a novel synthesis approach for making nanocomposites of transition metal oxides and sulfides intercalated laponite clay. Such nanomaterials made by integrating template synthesis and intercalation have superior pore and surface properties promising for advanced catalytic applications. The project will provide insights into mechanisms of nanostructure formation and inter ....Novel Nanostructures of Metal Oxides and Sulfides Intercalated Laponite for Catalytic Applications. The project aims to develop a novel synthesis approach for making nanocomposites of transition metal oxides and sulfides intercalated laponite clay. Such nanomaterials made by integrating template synthesis and intercalation have superior pore and surface properties promising for advanced catalytic applications. The project will provide insights into mechanisms of nanostructure formation and interactions of molecular species during synthesis. The best catalysts screened will be tested for two important reactions to establish the relationships between processing parameters, nanostructural properties and catalytic performance. Optimised synthesis parameters for high catalytic performance will be obtained. The project contributes to significant knowledge creation in nanomaterials science and catalysis.Read moreRead less
Synthesis and processing of fine powders and nano-materials by electric discharge assisted milling under hot and cold plasmas. The discovery of a new materials synthesis and processing technique, called Electric Discharge Assisted Ball Milling, has generated great interest within the materials science community. Preliminary results, recently published in Nature, have demonstrated that mechanical milling using both hot and cold plasmas can result in extremely rapid synthesis of a wide range of ma ....Synthesis and processing of fine powders and nano-materials by electric discharge assisted milling under hot and cold plasmas. The discovery of a new materials synthesis and processing technique, called Electric Discharge Assisted Ball Milling, has generated great interest within the materials science community. Preliminary results, recently published in Nature, have demonstrated that mechanical milling using both hot and cold plasmas can result in extremely rapid synthesis of a wide range of materials. The fundamental mechanisms for this rapid mechano-synthesis method will be elucidated by detailed studies of a range of technologically important materials including, ultrafine, nanostructural and nanosized powders, carbides, nitrides and borides, and energy efficient high surface area products for hydrogen storage and electrode applications.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775513
Funder
Australian Research Council
Funding Amount
$400,000.00
Summary
Advanced Process Tomography Research Facility for Multiphase System Studies. The establishment of an advanced process tomography facility at UNSW has several important national benefits, including; increased capacity of the collaborating institutions to train highly qualified personnel to meet new and growing demands in the processing industries; the transfer of research-based cheap and efficient technologies to our industries to enhance their position in a competitive global market; the improve ....Advanced Process Tomography Research Facility for Multiphase System Studies. The establishment of an advanced process tomography facility at UNSW has several important national benefits, including; increased capacity of the collaborating institutions to train highly qualified personnel to meet new and growing demands in the processing industries; the transfer of research-based cheap and efficient technologies to our industries to enhance their position in a competitive global market; the improvement in our culture and living standards through superior and inexpensive food, biomedical, water, environmental, materials and military products; and the strengthening of Australian position, through international linkage projects, as a world leader in the development of novel processing technologies.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0560662
Funder
Australian Research Council
Funding Amount
$204,157.00
Summary
Flow Diagnostics Facility for Microstructured Systems. This Project will establish Australia's only world-class facility for the interrogation of steady and fluctuating flows in microstructured components, enabling detailed characterisation of the flow patterns and velocities that occur in single phase and multiphase flows in miniature devices. Such devices are currently being developed by the Chief Investigators in the area of microreactor technology and chemical process intensification, in mic ....Flow Diagnostics Facility for Microstructured Systems. This Project will establish Australia's only world-class facility for the interrogation of steady and fluctuating flows in microstructured components, enabling detailed characterisation of the flow patterns and velocities that occur in single phase and multiphase flows in miniature devices. Such devices are currently being developed by the Chief Investigators in the area of microreactor technology and chemical process intensification, in microelectromechanical systems (MEMS), and in high efficiency membrane separation systems. The new Facility will enable them and others to enhance their research through visualisation and quantification of flow behaviour at the scale of a few micrometres.Read moreRead less