Using extreme conditions to synthesise new materials. This project aims to synthesise useful materials from non-crystalline light element precursors. Boron, carbon and nitrogen are the hardest known solids, and their ability to form many kinds of chemical bonds offers opportunities for attractive new materials. This project will apply high pressures and temperatures to non-crystalline precursor materials to access previously unobtainable synthesis conditions. This project will create strong and ....Using extreme conditions to synthesise new materials. This project aims to synthesise useful materials from non-crystalline light element precursors. Boron, carbon and nitrogen are the hardest known solids, and their ability to form many kinds of chemical bonds offers opportunities for attractive new materials. This project will apply high pressures and temperatures to non-crystalline precursor materials to access previously unobtainable synthesis conditions. This project will create strong and hard materials with tuneable optical and electronic properties. The expected outcome is new light materials that emit and detect light in the far ultraviolet for biological imaging and tough materials with low friction needed for motors and regenerative technologies.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE200100032
Funder
Australian Research Council
Funding Amount
$600,000.00
Summary
Advanced Multifunctional Electro-Opto-Magneto-Mechanical Analysis Platform. This project aims to build an advanced multi-functional Electro-Opto-Magneto-Mechanical analysis platform for characterizing nanomaterials and micro-/nano-scale devices. This platform expects to provide rich and unique characterization capabilities (electrical, optical, magnetic and mechanical) for hybrid devices with low temperature and high vacuum environment. The expected outcomes include multidisciplinary research co ....Advanced Multifunctional Electro-Opto-Magneto-Mechanical Analysis Platform. This project aims to build an advanced multi-functional Electro-Opto-Magneto-Mechanical analysis platform for characterizing nanomaterials and micro-/nano-scale devices. This platform expects to provide rich and unique characterization capabilities (electrical, optical, magnetic and mechanical) for hybrid devices with low temperature and high vacuum environment. The expected outcomes include multidisciplinary research collaborations and a wide range of next-generation technologies including non-invasive medical instruments, wearable devices, communication, quantum information systems and energy storage solutions. This should enable local design and construction of hybrid devices and advance the growth of local high-technology industries.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: LE100100116
Funder
Australian Research Council
Funding Amount
$350,000.00
Summary
Facilities of thermophysical characterisations at nanometre scale for development of advanced materials, energy technologies and biomedical components. Australia's energy, mining, metallurgical, defence, pharmaceutical and biomedical industries are spearheading the advancement of technologies in the global competitive market. They are the engines of Australian economic strength. Future progress of these industries will be largely driven by advances in materials. The installation of the propose ....Facilities of thermophysical characterisations at nanometre scale for development of advanced materials, energy technologies and biomedical components. Australia's energy, mining, metallurgical, defence, pharmaceutical and biomedical industries are spearheading the advancement of technologies in the global competitive market. They are the engines of Australian economic strength. Future progress of these industries will be largely driven by advances in materials. The installation of the proposed facilities will add a new dimension to high-level research performance and significantly enhance the capability for characterisation of various forms of materials and biomedical components in Australia. The continual development of advanced materials and energy technology will potentially provide a sustainable means for meeting the increasing global challenge for the industries.Read moreRead less