Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0882977
Funder
Australian Research Council
Funding Amount
$600,000.00
Summary
Enhanced NMR Research, Characterisation and Analysis Facility. Studying molecular species is at the heart of chemistry and biochemistry and fundamental to improving our understanding of molecular mechanisms and interactions. This becomes important for elucidating aspects of biological function, medicinal and pharmaceutical chemistry, materials science and synthetic methodology, which all underpin health and technology advances in Australia. The infrastructure will support projects involving fun ....Enhanced NMR Research, Characterisation and Analysis Facility. Studying molecular species is at the heart of chemistry and biochemistry and fundamental to improving our understanding of molecular mechanisms and interactions. This becomes important for elucidating aspects of biological function, medicinal and pharmaceutical chemistry, materials science and synthetic methodology, which all underpin health and technology advances in Australia. The infrastructure will support projects involving fundamental and strategic research spanning nanotechnology and the biological and materials sciences to industry-oriented projects.Read moreRead less
Developing the Helium Atom Pinhole Camera. The tantalising possibility of an optical instrument that uses neutral atom beams to image surfaces, rather than light or electrons, has been a grand challenge in Physics ever since de Broglie first postulated the existence of matter waves . This project seeks to realise this seminal goal using an elegantly simple design based on the concept of a pin hole camera. The successful development of this world-first instrument would represent a significant adv ....Developing the Helium Atom Pinhole Camera. The tantalising possibility of an optical instrument that uses neutral atom beams to image surfaces, rather than light or electrons, has been a grand challenge in Physics ever since de Broglie first postulated the existence of matter waves . This project seeks to realise this seminal goal using an elegantly simple design based on the concept of a pin hole camera. The successful development of this world-first instrument would represent a significant advance in helium atom microscopy and would significantly enhance the reputation of Australian science. Moreover, this project strengthens and supports a key collaboration between the Universities of Newcastle and Cambridge and is at the core of this emerging technology.Read moreRead less
Imaging with Neutral Atomic Beams: A Completely New Tool for Nanotechnology. The tantalising possibility of building an optical instrument that uses neutral atom beams to image surfaces, rather than light or electrons, has long been a goal of physical scientists across the world. This project aims to realise this goal using an elegantly simple design based on the concept of a pin hole camera. The successful development of this world-first instrument would represent a significant advance in heliu ....Imaging with Neutral Atomic Beams: A Completely New Tool for Nanotechnology. The tantalising possibility of building an optical instrument that uses neutral atom beams to image surfaces, rather than light or electrons, has long been a goal of physical scientists across the world. This project aims to realise this goal using an elegantly simple design based on the concept of a pin hole camera. The successful development of this world-first instrument would represent a significant advance in helium atom microscopy and would significantly enhance the reputation of Australian science. Moreover, this project maintains the position of Australian researchers and students at the core of this emerging technology.Read moreRead less
Geotechnical and soil-structure interaction properties of soils in Perth CBD. A new underground railway (City Project) will shortly begin construction in Perth CBD. This construction, and its associated high level of monitoring instrumentation, offers a unique opportunity for an extensive and thorough examination of the mechanical properties of Perths soils. The research results emanating from the proposed combination of field monitoring, laboratory investigation and numerical analysis, will gre ....Geotechnical and soil-structure interaction properties of soils in Perth CBD. A new underground railway (City Project) will shortly begin construction in Perth CBD. This construction, and its associated high level of monitoring instrumentation, offers a unique opportunity for an extensive and thorough examination of the mechanical properties of Perths soils. The research results emanating from the proposed combination of field monitoring, laboratory investigation and numerical analysis, will greatly improve the reliability (and hence cost) of future foundation and basement designs in Perth and elsewhere.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
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
The Mechanics of Nanoscale Devices. Australian developments in biosensing, medical diagnostics, clean energy, communication and security technologies, are rapidly growing due to our mounting capacity in nanoscale fabrication. Vital for evolution of next-generation nanodevices is an understanding of how mechanical processes operate at such small scales. This application will contribute to this scientific knowledge base. This will in turn assist Australian industries to progress these applications ....The Mechanics of Nanoscale Devices. Australian developments in biosensing, medical diagnostics, clean energy, communication and security technologies, are rapidly growing due to our mounting capacity in nanoscale fabrication. Vital for evolution of next-generation nanodevices is an understanding of how mechanical processes operate at such small scales. This application will contribute to this scientific knowledge base. This will in turn assist Australian industries to progress these applications and devices, leading to economic, social and technological gains for the Australian community.Read moreRead less
In-situ Scanning Probe Microscopy of biological redox processes: nanoscale structure and morphology. The science behind this project underpins the development of nanobiotechnology. Immediate applications foreseen, are the development of biosensors and diagnostic devices based on our intimate knowledge of the nature of the protein attachment to a surface. Use of synthetic membranes to create biomimetic surfaces will impact significantly on our understanding of the role and contribution membranes ....In-situ Scanning Probe Microscopy of biological redox processes: nanoscale structure and morphology. The science behind this project underpins the development of nanobiotechnology. Immediate applications foreseen, are the development of biosensors and diagnostic devices based on our intimate knowledge of the nature of the protein attachment to a surface. Use of synthetic membranes to create biomimetic surfaces will impact significantly on our understanding of the role and contribution membranes have on protein structure, function hence disease.Read moreRead less
Foundation studies of ion-beam nanotechnology. The impact of a single fast atom with sensitive materials leaves a path of latent damage with a diameter of around 10 nm. This latent damage can be developed to create nanostructures in a novel technique called ion beam nanomachining. We propose to create a method for using single atom impacts to produce nanomachined structures with novel physical and optical properties. This will be done by use of an active substrate that functions as a detector s ....Foundation studies of ion-beam nanotechnology. The impact of a single fast atom with sensitive materials leaves a path of latent damage with a diameter of around 10 nm. This latent damage can be developed to create nanostructures in a novel technique called ion beam nanomachining. We propose to create a method for using single atom impacts to produce nanomachined structures with novel physical and optical properties. This will be done by use of an active substrate that functions as a detector sensitive to single ion impacts. We propose to study the fundamental principles of this method.Read moreRead less