Linkage Infrastructure, Equipment And Facilities - Grant ID: LE150100123
Funder
Australian Research Council
Funding Amount
$190,000.00
Summary
Quench and deformation dilatometer for studying phase transformations. Quench and deformation dilatometer for studying phase transformations: The quenching and deformation dilatometer is a high precision thermal analysis tool used to measure phase transformations in situ. This technique can make time-resolved measurements of transformations under the extreme conditions of heating, cooling and deformation that are experienced during industrial processing. This instrument will be the only one in A ....Quench and deformation dilatometer for studying phase transformations. Quench and deformation dilatometer for studying phase transformations: The quenching and deformation dilatometer is a high precision thermal analysis tool used to measure phase transformations in situ. This technique can make time-resolved measurements of transformations under the extreme conditions of heating, cooling and deformation that are experienced during industrial processing. This instrument will be the only one in Australia capable of temperature changes above 2000 degrees Celsius and will also be the only one equipped with a cryogenic module. The instrument is intended to be used to characterise new processing technologies and new alloy systems such as advanced high strength steels, age hardenable magnesium, high entropy alloys, and cluster hardening aluminium alloys.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE210100025
Funder
Australian Research Council
Funding Amount
$468,000.00
Summary
Electron microscopy facilities for in-situ materials characterisation. This project aims to significantly strengthen our national capability in high resolution in-situ transmission electron microscopy through the introduction of special in-situ specimen holders and an imaging detector. The project expects to advance knowledge critical for the design of advanced materials with outstanding properties. Expected outcomes of this project will provide critical support for thorough understanding of how ....Electron microscopy facilities for in-situ materials characterisation. This project aims to significantly strengthen our national capability in high resolution in-situ transmission electron microscopy through the introduction of special in-situ specimen holders and an imaging detector. The project expects to advance knowledge critical for the design of advanced materials with outstanding properties. Expected outcomes of this project will provide critical support for thorough understanding of how the microstructures of materials affect their mechanical, thermal, electrical, and magnetic properties and will facilitate strategic collaborations among Australian scientists. This should promote Australia’s global leadership in materials research and advanced manufacturing.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE200100136
Funder
Australian Research Council
Funding Amount
$1,100,000.00
Summary
High Performance Solid State NMR Spectroscopy for Materials Research. The project will support research in a diverse set of fields such as biomedical engineering catalysis, energy storage and waste recovery, with cutting edge next-generation solid state (400 MHz) nuclear magnetic resonance capabilities and research expertise. The system enabling high sensitivity, high throughput analysis over extended temperature range will enable addressing of fundamental questions regarding the structure-prope ....High Performance Solid State NMR Spectroscopy for Materials Research. The project will support research in a diverse set of fields such as biomedical engineering catalysis, energy storage and waste recovery, with cutting edge next-generation solid state (400 MHz) nuclear magnetic resonance capabilities and research expertise. The system enabling high sensitivity, high throughput analysis over extended temperature range will enable addressing of fundamental questions regarding the structure-property relationships of advanced functional materials. Accessible to a wide user base in fundamental and applied research, in medicine, energy, catalysis and recycling of waste, the project will extend the current facilities to develop Sydney as regional centre for advanced solid state nuclear magnetic resonance analysis.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE140100104
Funder
Australian Research Council
Funding Amount
$500,000.00
Summary
Collaborative facility for high resolution fabrication, imaging, and characterisation of nanostructured materials. Collaborative facility for high resolution fabrication, imaging, and characterisation of nanostructured materials: The development of the next generation of electronic, optical, and biomedical devices requires methods that can quickly manipulate and characterise matter at the nanoscale. This project will establish new tools that will allow researchers to build novel device structure ....Collaborative facility for high resolution fabrication, imaging, and characterisation of nanostructured materials. Collaborative facility for high resolution fabrication, imaging, and characterisation of nanostructured materials: The development of the next generation of electronic, optical, and biomedical devices requires methods that can quickly manipulate and characterise matter at the nanoscale. This project will establish new tools that will allow researchers to build novel device structures and analyse them at nanoscale spatial resolutions. The new facilities are required to meet the demands of a growing number of innovative projects being undertaken within a large multidisciplinary consortium of research groups. The facilities will be housed in state-of-the art laboratories and managed as open access resources for researchers which will enable advances in the areas of energy harvesting, environmental monitoring, and electronics.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE180100141
Funder
Australian Research Council
Funding Amount
$326,367.00
Summary
Thermo-gravimetric infra-red imaging system for functional materials study. This proposal seeks to establish a multi-functional system for investigating surface, interface, and thermal properties of functional materials. The instrumentation features thermo-gravimetric, infra-red imaging hyphenated with gas-chromatography-mass spectrometry. The expected benefits are an enhanced research capability in solid-electrolyte-interphase and electrolyte decomposition on electrodes being used in alkaline-i ....Thermo-gravimetric infra-red imaging system for functional materials study. This proposal seeks to establish a multi-functional system for investigating surface, interface, and thermal properties of functional materials. The instrumentation features thermo-gravimetric, infra-red imaging hyphenated with gas-chromatography-mass spectrometry. The expected benefits are an enhanced research capability in solid-electrolyte-interphase and electrolyte decomposition on electrodes being used in alkaline-ion batteries, which could potentially pose risks during manufacturing and application. The system will not only facilitate high-quality research and impact the training of young researchers, but also provide a platform from which to enhance Australian materials research capabilities.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE100100195
Funder
Australian Research Council
Funding Amount
$1,000,000.00
Summary
Field-emission gun transmission electron microscope for the research in nanomaterials, metal alloys and biological sciences. The proposed facility is required by a large range of world-leading research programs in light metals, nanomaterials, fibres and biomaterials. These research programs are strongly supported by automobile, textile, mineral and advanced materials industries that have important roles in the current national economy and local communities. The facility will improve significan ....Field-emission gun transmission electron microscope for the research in nanomaterials, metal alloys and biological sciences. The proposed facility is required by a large range of world-leading research programs in light metals, nanomaterials, fibres and biomaterials. These research programs are strongly supported by automobile, textile, mineral and advanced materials industries that have important roles in the current national economy and local communities. The facility will improve significantly our current research ability and help the creation of new research areas in nanotechnology and energy materials beneficial to clean energy, environmental protections and health care. It is also important equipment for new research student training.Read moreRead less
Versatile dosimetry systems for radiotherapy and industrial applications: novel storage phosphor and associated reader technologies. Radiotherapy is an important procedure in the treatment of cancer, and it is essential that the radiation dosage can be accurately measured. This project will develop technology which will enable us to monitor radiation dosage in real time and very accurately. This will be of importance in medical science and also for industrial applications.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE120100036
Funder
Australian Research Council
Funding Amount
$440,000.00
Summary
National in-situ transmission electron microscope facilities. This project will establish six complementary transmission electron microscope (TEM) facilities at various locations. The establishment of the facilities will be a key step in developing advanced capacity in Australia and will support ground-breaking research in diverse material systems for various high-performing applications, including electronics, optoelectronics, light metals, biomaterials, energy, and environment.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE120100035
Funder
Australian Research Council
Funding Amount
$200,000.00
Summary
Joint processing facility for the production of far-from-equilibrium alloy structures. One of today’s research frontiers is to design materials with tailored physical, chemical and mechanical properties which would be suitable for new uses. Equipment for melt spinning and high-pressure torsion will be used to process materials to achieve novel microstructures. These will pave the way to new types of advanced materials for future applications in lightweight transport, energy technologies and biom ....Joint processing facility for the production of far-from-equilibrium alloy structures. One of today’s research frontiers is to design materials with tailored physical, chemical and mechanical properties which would be suitable for new uses. Equipment for melt spinning and high-pressure torsion will be used to process materials to achieve novel microstructures. These will pave the way to new types of advanced materials for future applications in lightweight transport, energy technologies and biomaterials.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE100100098
Funder
Australian Research Council
Funding Amount
$600,000.00
Summary
Advanced facility for next generation sustainable energy, biomedical & nano-imaging optical fibre technologies. Remote optical fibre technologies are the way forward for effective and safe monitoring of many industries, and will play a big part in the sustainability of Australia's core oil, gas and alternative energy sectors. They are equally important to health industry applications, particularly in medical and imaging technologies. This facility brings together world-class Australian expertise ....Advanced facility for next generation sustainable energy, biomedical & nano-imaging optical fibre technologies. Remote optical fibre technologies are the way forward for effective and safe monitoring of many industries, and will play a big part in the sustainability of Australia's core oil, gas and alternative energy sectors. They are equally important to health industry applications, particularly in medical and imaging technologies. This facility brings together world-class Australian expertise—from across nine universities—in advanced structured optical fibres, complex fibre diagnostic systems, nanoscale imaging, and environment monitoring, to design and implement the next generation of technologies that will reduce the impact of climate change through reduced energy consumption and vastly improved health diagnostics.Read moreRead less