New biosensing strategies based on bipolar electrochemiluminescence. Chemical analysis is a vital activity in our society, which is to a large extent confined to scientific laboratories and carried out with complex instrumentation. The breakthrough technology envisioned in this proposal will pave the way for simple, low-cost tests which can be used by non-scientists. The development of small, portable sensors for applications ranging from pollution monitoring to health testing, will enable ordi ....New biosensing strategies based on bipolar electrochemiluminescence. Chemical analysis is a vital activity in our society, which is to a large extent confined to scientific laboratories and carried out with complex instrumentation. The breakthrough technology envisioned in this proposal will pave the way for simple, low-cost tests which can be used by non-scientists. The development of small, portable sensors for applications ranging from pollution monitoring to health testing, will enable ordinary people to gain knowledge about the concentrations of molecular compounds in their environments and in themselves. This will stimulate economic and social benefits related to environmental testing and early disease diagnosis and generate new commercial opportunities for the Australian biotechnology industry.Read moreRead less
Light Activated Electrochemistry: Microelectrode Arrays with just one wire. Electrochemistry requires each electrode to be connected to the external circuit by a wire. With many electrodes this means many wires. Wires limit electrode density in arrays and dictate that the electrode architecture must be predetermined. This project aims to remove the need for a wire for each electrode by using light to sequentially connect each electrode to a single wire. This will be achieved using modified silic ....Light Activated Electrochemistry: Microelectrode Arrays with just one wire. Electrochemistry requires each electrode to be connected to the external circuit by a wire. With many electrodes this means many wires. Wires limit electrode density in arrays and dictate that the electrode architecture must be predetermined. This project aims to remove the need for a wire for each electrode by using light to sequentially connect each electrode to a single wire. This will be achieved using modified silicon electrodes where irradiating with light causes an increase in conductivity at the illumination spot. The project will explore the variables that influence the spatial resolution and apply the ideas to making soft connects for nanoelectronics and making high density electrode arrays for electroanalysis.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE120101456
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Electrochemical behaviour of toxic gases and explosives in room temperature ionic liquids. This project will examine the behaviour of toxic gases and volatile explosive materials in ionic liquids. The information generated from this work will provide fundamental knowledge that will allow for the design of improved sensors for toxic gases, nerve agents and explosives, for applications in the mining and security sectors.
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
Miniaturised Ionic Liquid Systems: Design, Electrochemistry and Application. The project aims to develop a new generation of miniature electrochemical devices based on ionic liquids, salts that are liquid at room temperature. In making these devices the project will study the fundamental physicochemical and electrochemical behaviour of the ionic liquid microinterfaces formed, and this will allow optimisation and enhancement of their properties. A gas sensor made of a micro-pattern of ionic liqui ....Miniaturised Ionic Liquid Systems: Design, Electrochemistry and Application. The project aims to develop a new generation of miniature electrochemical devices based on ionic liquids, salts that are liquid at room temperature. In making these devices the project will study the fundamental physicochemical and electrochemical behaviour of the ionic liquid microinterfaces formed, and this will allow optimisation and enhancement of their properties. A gas sensor made of a micro-pattern of ionic liquid drops will be designed to detect gaseous toxic amines, which are released from numerous anthropogenic sources including waste water, sewage treatment, farms and industry. These sensors will be small, specific to the target gas, sensitive, fast in response and portable.Read moreRead less
Medium temperature electrolysis for low-cost carbon dioxide utilization. Carbon dioxide is a notorious greenhouse gas. Its capture, and subsequent storage or utilization, is a major focus not only for researchers, but also for governments trying to meet their obligations of the Paris Agreement on climate change and for industries managing their legal and social responsibilities. This project aims to develop commercially viable medium temperature electrolysers to convert carbon dioxide into value ....Medium temperature electrolysis for low-cost carbon dioxide utilization. Carbon dioxide is a notorious greenhouse gas. Its capture, and subsequent storage or utilization, is a major focus not only for researchers, but also for governments trying to meet their obligations of the Paris Agreement on climate change and for industries managing their legal and social responsibilities. This project aims to develop commercially viable medium temperature electrolysers to convert carbon dioxide into value added chemicals using electricity from renewable sources. New design principles will be developed to generate highly active and selective catalysts with long-term stability. These electrolyzers will be integrated with carbon capture technologies to directly utilize captured carbon dioxide with high energy efficiency.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
Three Dimensional Anti-biofouling Conducting Polymer Hydrogel Electrodes for Biosensor and Biofuel cell Applications. Exploitation of advances in nanotechnology, electrochemical technology, biosensor, biofuel cell and material science are important to Australia's prosperity from a societal industrial perspective. Currently, research in this field is being actively conducted around the world due to their huge potential for commercial applications. Therefore, through the development of new princi ....Three Dimensional Anti-biofouling Conducting Polymer Hydrogel Electrodes for Biosensor and Biofuel cell Applications. Exploitation of advances in nanotechnology, electrochemical technology, biosensor, biofuel cell and material science are important to Australia's prosperity from a societal industrial perspective. Currently, research in this field is being actively conducted around the world due to their huge potential for commercial applications. Therefore, through the development of new principles and concepts, and the synthesis of newly designed materials, this project will bring significant benefits in improving the efficiency of these devices and to promote Australian leadership in the field of medical devices and alternative energy generation.Read moreRead less
Parameterisation of voltammetry in a machine learning environment. Important devices in modern society such as batteries, fuel cells and medical sensors exploit special properties of complex electrochemical reactions. The aim of this multidisciplinary project is to develop an integrated approach to intelligent collection and analysis of large electrochemical data sets in a machine-learning environment. As a result, it will become possible for the first time to globally model and quantitatively p ....Parameterisation of voltammetry in a machine learning environment. Important devices in modern society such as batteries, fuel cells and medical sensors exploit special properties of complex electrochemical reactions. The aim of this multidisciplinary project is to develop an integrated approach to intelligent collection and analysis of large electrochemical data sets in a machine-learning environment. As a result, it will become possible for the first time to globally model and quantitatively parameterise all aspects of the dynamic electrochemistry associated with exceptionally complex electrochemical reactions in a statistically significant framework. Problems to be addressed are of biological and chemical significance. An end product will be a commercially viable, user-friendly instrumentation package.Read moreRead less