Guided droplet deposition: Microfabrication of advanced materials. The progress of micro and nanofabrication is opening an array of new opportunities with a new degree of freedom for manufacturing. This process will complement the existing micromanufacturing facilities in Melbourne. While metal printing and deposition of polymers is presently available, the guided droplet deposition will extend current capabilities to include ceramics and high melting temperature metals. Direct application to me ....Guided droplet deposition: Microfabrication of advanced materials. The progress of micro and nanofabrication is opening an array of new opportunities with a new degree of freedom for manufacturing. This process will complement the existing micromanufacturing facilities in Melbourne. While metal printing and deposition of polymers is presently available, the guided droplet deposition will extend current capabilities to include ceramics and high melting temperature metals. Direct application to medical devices will provide a more effective surface for improved performance and allow the incorporation of smart and sensor materials for multifunctional devices. Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0883056
Funder
Australian Research Council
Funding Amount
$300,000.00
Summary
Vacuum Ultraviolet Spectrophotometer and Rapid Photoluminescence Mapping System for Development of Advanced Materials and Biosystems. Australia's energy and renewable energy, defence, biosystem and pharmaceutical industries are spearheading the advancement of technologies in the global competitive market. They are the engines of Australian economy's strength. Future progress of these industries is expected to be largely driven by advances in materials and biosystems. The installation of the p ....Vacuum Ultraviolet Spectrophotometer and Rapid Photoluminescence Mapping System for Development of Advanced Materials and Biosystems. Australia's energy and renewable energy, defence, biosystem and pharmaceutical industries are spearheading the advancement of technologies in the global competitive market. They are the engines of Australian economy's strength. Future progress of these industries is expected to be largely driven by advances in materials and biosystems. The installation of the proposed facilities will add a new dimension to high-level research performance and significantly enhance the capability for characterization of various forms of materials and biosystems in Australia. The continual development of advanced material and biosystem technology will potentially provide a sustainable means for meeting the increasing global challenge for the industries.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775511
Funder
Australian Research Council
Funding Amount
$300,000.00
Summary
Laser Flash Thermophysical Properties Analyzer for the Development of Advanced Materials, Food Processing Technologies and Biomedical Components. The Australian's energy, mining, metallurgical and food industries spearhead the advancement of technologies in the global competitive market. They are the locomotive of Australian economy's strength. Future progress of these industries will be largely driven by advances in materials and food processing technology. The installation of the proposed fa ....Laser Flash Thermophysical Properties Analyzer for the Development of Advanced Materials, Food Processing Technologies and Biomedical Components. The Australian's energy, mining, metallurgical and food industries spearhead the advancement of technologies in the global competitive market. They are the locomotive of Australian economy's strength. Future progress of these industries will be largely driven by advances in materials and food processing technology. The installation of the proposed facility will add a new dimension to high-level research performance and significantly enhance the capability for characterization of various forms of materials, foods and biomedical components in Australia. The continual development of advanced materials and food processing technology will potentially provide a sustainable means for meeting the increasing global challenge for the industries.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668532
Funder
Australian Research Council
Funding Amount
$680,000.00
Summary
A Focussed Ion Beam-Scanning Electron Microscope for Advanced Analytical and Nanotechnology Research in South East Queensland. The minerals industry underpins Australia's current economic prosperity. The aging of the population presents major economic challenges in the delivery of cost effective health services. New nanotechnology-enabled industries will contribute to future national economic and environmental well-being. The research enhanced by this facility impacts all these areas. It will i ....A Focussed Ion Beam-Scanning Electron Microscope for Advanced Analytical and Nanotechnology Research in South East Queensland. The minerals industry underpins Australia's current economic prosperity. The aging of the population presents major economic challenges in the delivery of cost effective health services. New nanotechnology-enabled industries will contribute to future national economic and environmental well-being. The research enhanced by this facility impacts all these areas. It will improve mineral extraction and processing, enhance fundamental understanding of cellular interactions with textured surfaces, and lead to improved implantable material designs and improved implantable device lifetimes (eg hip and knee replacements). Development of advanced nanotechnology applications in energy, optoelectronics and sensors will be also be extended.Read moreRead less
Designs of Periodic Microstructure Materials with Prescribed Multiphysical Properties. The evolutionary structural optimization (ESO) is an Australian initiative, which has made a significant impact on modern structural optimization. In advanced materials areas, Australia has well-established infrastructure and world-class expertise. Exploitation of ESO to advanced materials design will be of "exclusive significance" to Australia. More importantly, the new material design technology will present ....Designs of Periodic Microstructure Materials with Prescribed Multiphysical Properties. The evolutionary structural optimization (ESO) is an Australian initiative, which has made a significant impact on modern structural optimization. In advanced materials areas, Australia has well-established infrastructure and world-class expertise. Exploitation of ESO to advanced materials design will be of "exclusive significance" to Australia. More importantly, the new material design technology will present to Australia an opportunity to lead in this rapidly-growing area, which will definitely underpin Australia's standing as a major contributor and developer in a global materials market. It is expected that fresh classes of futuristic materials can be developed in a cost-effective fashion and add great economic benefits to Australia.Read moreRead less
Development of Cathodic Arc Plasma Immersion Ion Implantation (PIII) for biomaterials applications. Medical prostheses have intricate geometries, consisting of shapes such as screws, holes, wedges, cones and textured surfaces. Plasma Immersion Ion Implantation using metal or carbon ions produced by a cathodic arc has been found to be an excellent process for producing surface modification with the properties required in medical applications, such as low stress and excellent adhesion of very thic ....Development of Cathodic Arc Plasma Immersion Ion Implantation (PIII) for biomaterials applications. Medical prostheses have intricate geometries, consisting of shapes such as screws, holes, wedges, cones and textured surfaces. Plasma Immersion Ion Implantation using metal or carbon ions produced by a cathodic arc has been found to be an excellent process for producing surface modification with the properties required in medical applications, such as low stress and excellent adhesion of very thick coatings. To date this process has only been applied to simple, flat substrates. Extending it to shapes of interest for biomaterials applications will require comprehensive understanding and control of the sheath dynamics, which our combined theoretical and experimental approach will provide.Read moreRead less
Stronger zinc alloys for more flexible biodegradable stents. This project aims to develop stronger zinc alloys for a new class of biodegradable metallic stents. A key challenge for biodegradable stent technology is to make stents as thin as possible while also being strong. This project will develop ultra-high strength zinc alloys that can be used to fabricate thinner biodegradable stents for easier surgical operation. The project outcomes should be a major step in the design and development of ....Stronger zinc alloys for more flexible biodegradable stents. This project aims to develop stronger zinc alloys for a new class of biodegradable metallic stents. A key challenge for biodegradable stent technology is to make stents as thin as possible while also being strong. This project will develop ultra-high strength zinc alloys that can be used to fabricate thinner biodegradable stents for easier surgical operation. The project outcomes should be a major step in the design and development of a new generation of biodegradable stents that will avoid the risks associated with existing products and potentially create a better life for millions of patients worldwide.Read moreRead less
Elastic softening of Ti alloys by plastic deformation for safer and more durable bone implants. This project will explore a critical factor that will form the basis of improving the biomechanical compatibility of titanium alloys for human bone implants. The outcomes will be a major step in optimising the design and development of human bone implants that will last a lifetime, avoiding the agony and risk associated with implant failure.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0883021
Funder
Australian Research Council
Funding Amount
$350,000.00
Summary
Advanced Surface Characterisation Facility. This proposal underpins a major expansion of surface characterisation resources at La Trobe University, one of Australia's leading providers in this field, and builds associated research programs and collaborations, in particular, with Monash University and Deakin University. New opportunities will be provided for hands-on training in state-of-the-art surface characterisation for postgraduates in fields such as physics, chemistry, nanotechnology, mater ....Advanced Surface Characterisation Facility. This proposal underpins a major expansion of surface characterisation resources at La Trobe University, one of Australia's leading providers in this field, and builds associated research programs and collaborations, in particular, with Monash University and Deakin University. New opportunities will be provided for hands-on training in state-of-the-art surface characterisation for postgraduates in fields such as physics, chemistry, nanotechnology, materials science and engineering. The Australian community will benefit through internationally significant research outcomes leading to, for example, enhanced medical testing technologies, biocompatible medical appliances, better waste water treatment processes, and new battery technologies.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE140100012
Funder
Australian Research Council
Funding Amount
$890,000.00
Summary
Dual Column-Focused Ion Beam/Scanning Electron Microscope facility for Queensland. Dual column focused ion beam/scanning electron microscope facility: This facility will precisely cut specimens and surfaces that can be imaged in a variety of ways, including crystallographic and elemental space, of particular use for physical scientists, as well as biological specimens. This instrument will provide information at resolutions between optical and transmission electron microscopy, images that will ....Dual Column-Focused Ion Beam/Scanning Electron Microscope facility for Queensland. Dual column focused ion beam/scanning electron microscope facility: This facility will precisely cut specimens and surfaces that can be imaged in a variety of ways, including crystallographic and elemental space, of particular use for physical scientists, as well as biological specimens. This instrument will provide information at resolutions between optical and transmission electron microscopy, images that will effectively provide the biologist with the ability to develop the complete correlative picture of organelles and cells. The instrument will also provide a much needed resource for researchers across disciplines such as physics, chemistry, biology, geology and engineering.Read moreRead less