Overcoming the Barriers in the Development of Solid State Materials. A major impact of this proposal shall be in terms of researcher training. By synergistically combining materials chemistry, fundamental physical chemistry, inorganic chemistry, and electrochemistry, this basic program will provide high level training to a new generation of Australian and Irish scientists thus helping to safeguard the economic competitiveness of the countries. Beyond the impact of the fundamental insight into t ....Overcoming the Barriers in the Development of Solid State Materials. A major impact of this proposal shall be in terms of researcher training. By synergistically combining materials chemistry, fundamental physical chemistry, inorganic chemistry, and electrochemistry, this basic program will provide high level training to a new generation of Australian and Irish scientists thus helping to safeguard the economic competitiveness of the countries. Beyond the impact of the fundamental insight into the rational design, structure and behaviour of a new class of solid materials, success in this program will have widespread applications for a variety of strategically important industries and should place Australia and Ireland at the forefront of this technologyRead moreRead less
Ionic Liquids and Solids - New Designs, Insights and Applications. Ionic Materials in the form of liquid salts and plastic crystals are of interest in a wide range of applications including environmentally benign synthesis of chemicals and high stability electrolytes for batteries, capacitors and other devices. These materials represent some of the most stable chemicals known, making them attractive for any application where complete stability and recycling are issues. Building on our recent wor ....Ionic Liquids and Solids - New Designs, Insights and Applications. Ionic Materials in the form of liquid salts and plastic crystals are of interest in a wide range of applications including environmentally benign synthesis of chemicals and high stability electrolytes for batteries, capacitors and other devices. These materials represent some of the most stable chemicals known, making them attractive for any application where complete stability and recycling are issues. Building on our recent work, this project will design, prepare and characterize novel materials of this type for a number of target applications. Collaborators in Europe and USA will be involved in the analysis and testing of the materials.Read moreRead less
Low viscosity, high ionic conductivity ionic liquids for lithium metal batteries. Current consumer electronic devices rely on lithium-ion batteries to provide a high energy density power source. There are growing safety concerns about the electrolytes in these devices after recent incidents involving fires in mobile phones. Recent advances in ionic liquids (ILs) have seen the development of new electrolytes for such devices, with enhanced physical properties that offer major safety advantages. H ....Low viscosity, high ionic conductivity ionic liquids for lithium metal batteries. Current consumer electronic devices rely on lithium-ion batteries to provide a high energy density power source. There are growing safety concerns about the electrolytes in these devices after recent incidents involving fires in mobile phones. Recent advances in ionic liquids (ILs) have seen the development of new electrolytes for such devices, with enhanced physical properties that offer major safety advantages. However, the viscosity of these materials currently limit their capabilities. New IL materials to be developed in this project will pave the way for the development of safer devices and new sustainable energy industries in Australia.Read moreRead less
Electrochemically, photochemically and magnetically tuneable organic semi-conducting electrodes for probing biologically important redox chemistry and catalysis. Newly developed tuneable, semi-conductor electrode materials will facilitate substantial advances in electrochemistry. The almost unprecedented levels of flexibility with respect to metal and organic constituents will facilitate insights into biologically important electron transfer and coupled catalytic processes and promote commercia ....Electrochemically, photochemically and magnetically tuneable organic semi-conducting electrodes for probing biologically important redox chemistry and catalysis. Newly developed tuneable, semi-conductor electrode materials will facilitate substantial advances in electrochemistry. The almost unprecedented levels of flexibility with respect to metal and organic constituents will facilitate insights into biologically important electron transfer and coupled catalytic processes and promote commercial opportunities for sensor development. Electrochemistry represents an enabling discipline in science. The project offers the opportunity for high quality multi-disciplinary doctoral training, integration of skills of scientists from different backgrounds and opportunities to work in world-class national and international infrastructure in the areas of chemistry, biological chemistry and materials science.Read moreRead less
Integration of Electrochemistry and Green Chemistry: A Roadmap for Scientific Innovation. Electrochemistry represents an enabling science in physical, chemical and life sciences. It plays a key role in fundamental studies and in Australia's industrial capacity to exploit emerging technologies. Research conducted synergistically within the ARC Centre for Green Chemistry would enable the Monash Electrochemistry Group to develop and exploit new concepts. In the national interest, the Fellowship ....Integration of Electrochemistry and Green Chemistry: A Roadmap for Scientific Innovation. Electrochemistry represents an enabling science in physical, chemical and life sciences. It plays a key role in fundamental studies and in Australia's industrial capacity to exploit emerging technologies. Research conducted synergistically within the ARC Centre for Green Chemistry would enable the Monash Electrochemistry Group to develop and exploit new concepts. In the national interest, the Fellowship would: facilitate global participation in cutting-edge science derived from electrochemical and green chemical concepts; provide commercial opportunities for new and mature chemical industries; expand postgraduate training; and promote technology exchange with Australian and international leading-edge research organisations.Read moreRead less
ARC Centre of Excellence - Australian Centre for Electromaterials Science. The Centre will tackle some of the biggest challenges facing society: those of renewable energy, sustainable industries and enhancing human health. Improvements in all these areas are possible by developing electromaterials with improved efficiency in the generation and transfer of electrical charge. By developing new nano-materials and new theories to explain their behaviour, the Centre will make advances in the areas ....ARC Centre of Excellence - Australian Centre for Electromaterials Science. The Centre will tackle some of the biggest challenges facing society: those of renewable energy, sustainable industries and enhancing human health. Improvements in all these areas are possible by developing electromaterials with improved efficiency in the generation and transfer of electrical charge. By developing new nano-materials and new theories to explain their behaviour, the Centre will make advances in the areas of human health through the regeneration of damaged nerves (eg. in spinal injury) and development of artificial muscles; in renewable energy (plastic solar cells, lightweight batteries and electronic textiles) and in sustainable industries (recovery of precious metals and new corrosion protection technologies).Read moreRead less
Large amplitude Fourier transformed voltammetry: paths towards more efficient data evaluation strategies, enhanced insights and innovation in dynamic electrochemistry. Electrochemistry represents an enabling discipline in many branches of science. The aim of this research is to integrate the collective skills of an international consortium of experts in electrochemistry, electrical engineering, computing and mathematics in order to implement a blueprint proposed for innovation in electrochemic ....Large amplitude Fourier transformed voltammetry: paths towards more efficient data evaluation strategies, enhanced insights and innovation in dynamic electrochemistry. Electrochemistry represents an enabling discipline in many branches of science. The aim of this research is to integrate the collective skills of an international consortium of experts in electrochemistry, electrical engineering, computing and mathematics in order to implement a blueprint proposed for innovation in electrochemical science. In the national interest, the project will facilitate global participation in cutting-edge science derived from electrochemical concepts, provide commercial opportunities in the area of scientific instrumentation and promote technology exchange with Australian and international leading-edge research organizations.Read moreRead less
A blueprint for an intelligent instrumental, theoretical and experimental unification of a myriad of voltammetric and related electrochemical techniques. Electrochemistry is a prominent discipline in many areas of fundamental and applied science (for example, electron transfer reactions, corrosion, sensors, photovoltaics). The aim of the research proposal is to utilise skills available at Monash University and those of a national and international consortium of experts in electrochemistry, elec ....A blueprint for an intelligent instrumental, theoretical and experimental unification of a myriad of voltammetric and related electrochemical techniques. Electrochemistry is a prominent discipline in many areas of fundamental and applied science (for example, electron transfer reactions, corrosion, sensors, photovoltaics). The aim of the research proposal is to utilise skills available at Monash University and those of a national and international consortium of experts in electrochemistry, electrical engineering, computing and mathematics to introduce a new integrated instrumental, theoretical and experimental concept that will provide a blueprint for innovation in electrochemical science. An expected outcome is that important advances relevant to Australian Industry will be achieved in the area of scientific instrumentation and in modern applications of electrochemistry.Read moreRead less
Novel Scanning Electrochemical Microscopy applications in molecular, supramolecular electrochemistry and biological systems. Improved understanding of chemical reactivity in natural and artificial molecular systems and acquisition of a wider perspective of electron transfer processes are two important challenges in chemistry and biology. Through this well defined research project, the CI, jointly with the host facility, has the skills to achieve valuable new insights. This project will expand Au ....Novel Scanning Electrochemical Microscopy applications in molecular, supramolecular electrochemistry and biological systems. Improved understanding of chemical reactivity in natural and artificial molecular systems and acquisition of a wider perspective of electron transfer processes are two important challenges in chemistry and biology. Through this well defined research project, the CI, jointly with the host facility, has the skills to achieve valuable new insights. This project will expand Australia's knowledge base and research capability and open new scenarios for frontier technologies and advanced materials. This project will introduce the SECM methods into Australia. The foreseen benefits include technology exchange and contribution to fundamental and applied science.Read moreRead less
Electrochemistry of redox-active non-metal compounds. Unsaturated compounds of heavier non-metal elements can exist in multiple stable redox states. The interconversion is best assessed by electrochemical techniques, which can measure the energetics and the mechanism of the redox processes involved in both solution and solid state phases. Compounds to be studied will be prepared in the Canadian laboratories of the partner investigator. The electrochemical and spectroelectrochemical properties ....Electrochemistry of redox-active non-metal compounds. Unsaturated compounds of heavier non-metal elements can exist in multiple stable redox states. The interconversion is best assessed by electrochemical techniques, which can measure the energetics and the mechanism of the redox processes involved in both solution and solid state phases. Compounds to be studied will be prepared in the Canadian laboratories of the partner investigator. The electrochemical and spectroelectrochemical properties will initially be investigated in Australia during the visit of the partner investigator to Monash University with follow up studies in both countries. The mutual skills of synthesis and electrochemistry in the Canadian-Australian laboratories are essential to the project.Read moreRead less