Linkage Infrastructure, Equipment And Facilities - Grant ID: LE160100063
Funder
Australian Research Council
Funding Amount
$980,000.00
Summary
Focused ion beam microscope for trace element analysis and nanomachining. Focused ion beam microscope for trace element analysis and nanomachining:
This project aims to fill the critical gap in 3-D imaging and compositional characterisation of metals, functional materials, polymers, biomaterials, ceramics and minerals at micro- and nano-scales. Coupling of dual column focused ion beam microscopy with secondary ion mass spectroscopy analysis will is designed to overcome the long-standing limitat ....Focused ion beam microscope for trace element analysis and nanomachining. Focused ion beam microscope for trace element analysis and nanomachining:
This project aims to fill the critical gap in 3-D imaging and compositional characterisation of metals, functional materials, polymers, biomaterials, ceramics and minerals at micro- and nano-scales. Coupling of dual column focused ion beam microscopy with secondary ion mass spectroscopy analysis will is designed to overcome the long-standing limitation of light and trace element analysis in scanning electron microscopes. This facility would provide Australian researchers with a new capability of characterising light and trace elements using scanning electron microscopy. Along with the ability to characterise a diverse range of materials in 3-D, the new system would enable fabrication of functional nanoscale devices for nanotechnology, biomedical and energy applications. Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE150100043
Funder
Australian Research Council
Funding Amount
$420,000.00
Summary
New generation cryogen-free Physical Property Measurement System . New generation cryogen-free physical property measurement system: This project aims to establish a unique Australian research facility, a cryogen-free high magnetic field Dynacool Physical Property Measurement System (PPMS). With its comprehensive and versatile set of tools for precise electro- and opto-magnetic characterisation, the facility is expected to drive interdisciplinary collaborative efforts between over 50 researchers ....New generation cryogen-free Physical Property Measurement System . New generation cryogen-free physical property measurement system: This project aims to establish a unique Australian research facility, a cryogen-free high magnetic field Dynacool Physical Property Measurement System (PPMS). With its comprehensive and versatile set of tools for precise electro- and opto-magnetic characterisation, the facility is expected to drive interdisciplinary collaborative efforts between over 50 researchers and across more than 25 Australian Research Council and other projects, with the aim to uncover new unconventional phenomena in superconductors, spintronic materials, topological insulators, conducting polymers, one- and two-dimensional micro- and nano-materials, and bio-magnetic materials.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE170100072
Funder
Australian Research Council
Funding Amount
$600,000.00
Summary
Facility for exploring light-matter interactions in space, time and energy. This project aims to create a readily accessible facility consisting of a suite of tools to study light-matter interactions in materials, molecules and biological systems. Understanding light-matter interactions offers insight into the properties of nano- and biomaterials. The project intends to combine local probes and pump-probe spectroscopy methods for studying nanoscale femtosecond dynamics. It will be accessible to ....Facility for exploring light-matter interactions in space, time and energy. This project aims to create a readily accessible facility consisting of a suite of tools to study light-matter interactions in materials, molecules and biological systems. Understanding light-matter interactions offers insight into the properties of nano- and biomaterials. The project intends to combine local probes and pump-probe spectroscopy methods for studying nanoscale femtosecond dynamics. It will be accessible to a broad user base, cementing Australia’s leadership in ultrafast spectroscopy techniques and nano/bio-materials. The facility will provide a window to the quantum nanoworld, with potential for developing new energy efficient light sources, light-harvesting systems and sensors.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE110100094
Funder
Australian Research Council
Funding Amount
$300,000.00
Summary
Selective laser melting - an advanced manufacturing and physical modelling technology for the digital age. Selective laser melting is a new manufacturing technology that creates parts layer by layer directly from a computer model, eliminating the need for tooling or machining. This technology will be applied to a diverse range of research areas from producing the next generation of medical implants and devices to improving our understanding of geo-materials.
Printable technologies for high security documents and consumer products. Printable technologies for high security documents and consumer products. This project aims to develop two next-generation printable security feature technologies to protect users from counterfeiting, which costs the world economy billions in lost revenue and undermines the security of citizens. First, it aims to enhance the security of banknotes by developing printable active device patches with energy harvesting flexible ....Printable technologies for high security documents and consumer products. Printable technologies for high security documents and consumer products. This project aims to develop two next-generation printable security feature technologies to protect users from counterfeiting, which costs the world economy billions in lost revenue and undermines the security of citizens. First, it aims to enhance the security of banknotes by developing printable active device patches with energy harvesting flexible polymers as a power source and thin film graphene/polymer nanomaterial as an electrode/energy storage media. Second, it aims to design invisible carbon nanotube inks for optical authentication via near infrared activation. Both technologies are expected to thwart sophisticated counterfeits, particularly those supported by organised crime.Read moreRead less
Plastic auxetics: a new class of materials. Auxetic materials and structures are those which possess the unusual property of expanding in a lateral direction when stretched or contracting in the lateral direction when compressed. This project will deliver a new class of auxetic materials which are easy to manufacture; possess tuneable properties; and are capable of carrying large strains.
Neuromorphic Sensing and Diagnostics with Carbon: Towards a Biomimetic Nose. Neuromorphic electronics emulates cognitive processes of the brain and like the brain, is capable of extracting features and recognising patterns within data with extremely low energy requirements. Carbon materials are naturally adapted to neuromorphic electronics and uniquely form a compatible interface for sensing molecules in liquid and gaseous media. This project aims to develop a carbon-based neuromorphic electroni ....Neuromorphic Sensing and Diagnostics with Carbon: Towards a Biomimetic Nose. Neuromorphic electronics emulates cognitive processes of the brain and like the brain, is capable of extracting features and recognising patterns within data with extremely low energy requirements. Carbon materials are naturally adapted to neuromorphic electronics and uniquely form a compatible interface for sensing molecules in liquid and gaseous media. This project aims to develop a carbon-based neuromorphic electronic sensing device and couple it with carbon based neuromorphic pattern recognition technology to build an ‘artificial nose’ for improved health and environmental monitoring. Intended outcomes will include a technology for low-cost and rapid diagnostic services.
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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
Spin manipulation in oxide magnetic semiconductors towards spintronics applications. The project is to develop high quality diluted magnetic semiconductors (DMS) with magnetic element dopant for practical spintronics applications. The properties for the qualified DMS include intrinsic ferromagnetism, effective spin manipulation, high spin polarisation and long distance of spin transport, which have not been well addressed so far. This project will investigate these issues using advance tools, in ....Spin manipulation in oxide magnetic semiconductors towards spintronics applications. The project is to develop high quality diluted magnetic semiconductors (DMS) with magnetic element dopant for practical spintronics applications. The properties for the qualified DMS include intrinsic ferromagnetism, effective spin manipulation, high spin polarisation and long distance of spin transport, which have not been well addressed so far. This project will investigate these issues using advance tools, including muon spin relaxation and neutron reflectometry. This project expects to establish criteria for evaluating DMS, understanding spin dynamics and mechanisms of spin manipulation and achieve qualified DMSs.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