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
Directional fluid-transfer in thin porous materials with gradient wettability through thickness. This project will further strengthen Australia's world leading position in advanced fibrous materials research. It will provide a new platform technology to develop self-driven unidirectional fluid-transfer fabrics and porous membranes for diverse applications in daily life, healthcare, defence and a number of industrial processes.
Smart utilisation of cobaltite based electrodes on solid oxide fuel cells. This project aims to develop solid oxide fuel cell technologies with significantly simplified fabrication steps and at low cost. It aims to generate fundamental knowledge on the polarisation induced electrode/electrolyte interfaces under fuel cell operation conditions. The advanced fuel cell technologies will in turn substantially increase the energy conversion efficiency and provide significant benefit in the reduction o ....Smart utilisation of cobaltite based electrodes on solid oxide fuel cells. This project aims to develop solid oxide fuel cell technologies with significantly simplified fabrication steps and at low cost. It aims to generate fundamental knowledge on the polarisation induced electrode/electrolyte interfaces under fuel cell operation conditions. The advanced fuel cell technologies will in turn substantially increase the energy conversion efficiency and provide significant benefit in the reduction of greenhouse emission.Read moreRead less
Design and synthesis of boron nitride thin film coatings with exceptional properties. This project will develop new types of boron nitride thin film coatings with properties and performance tailored to meet the needs of applications ranging from advancing the lifetime of tools and components to the production of advanced semiconductor light sources.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE120100223
Funder
Australian Research Council
Funding Amount
$340,000.00
Summary
Advanced X-ray diffraction facility for high energy and extreme conditions. X-ray powder diffraction is a powerful technique for determining the structure of matter at the atomic scale. This project will establish a new Australian capability for X-ray powder diffraction under extreme conditions that emulate real harsh service environments for advanced functional materials.