Porphyrin arrays - Light Harvesting in three dimensions. The emulation of photosynthesis, the efficient and sustainable utilization of solar energy using renewable materials represents one of the great scientific challenges. This project will explore one aspect of this by determining the nature and scope of using assemblies of artificial chlorophylls for three dimensional light harvesting in titania solar cells.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE140100033
Funder
Australian Research Council
Funding Amount
$150,000.00
Summary
Ultrafast time-resolved optical spectroscopy for advanced multifunctional materials. Ultrafast time resolved optical spectroscopy for advanced multifunctional materials: Time resolved spectroscopy is among the hottest emerging fields in condensed matter physics and offers a new perspective into the complex physics of multifunctional materials like multiferroics or unconventional superconductors. At present, the underlying physics of these novel complex materials is not fully understood and new e ....Ultrafast time-resolved optical spectroscopy for advanced multifunctional materials. Ultrafast time resolved optical spectroscopy for advanced multifunctional materials: Time resolved spectroscopy is among the hottest emerging fields in condensed matter physics and offers a new perspective into the complex physics of multifunctional materials like multiferroics or unconventional superconductors. At present, the underlying physics of these novel complex materials is not fully understood and new experimental approaches such as the proposed time-resolved optical spectroscopy are required. The deeper understanding of the involved phenomena would also allow for a systematic search for new, undiscovered multifunctional materials with similar but enhanced properties. This offers a huge potential for future industry in applications such as in novel sensors, information processing, and high efficiency photovoltaics.Read moreRead less
Transition Metal Oxide Interfaces: Novel Emerging Functionalities. The project aims to investigate transition metal oxide heterostructures, which offer tremendous opportunities for fundamental research and future technological applications because they combine quantum size effects with effects of strong electron correlations such as magnetic switching, multiferroic coupling or superconductivity. Recent advances in growth methods such as pulsed laser deposition enable layer-by-layer growth with ....Transition Metal Oxide Interfaces: Novel Emerging Functionalities. The project aims to investigate transition metal oxide heterostructures, which offer tremendous opportunities for fundamental research and future technological applications because they combine quantum size effects with effects of strong electron correlations such as magnetic switching, multiferroic coupling or superconductivity. Recent advances in growth methods such as pulsed laser deposition enable layer-by-layer growth with atomic precision. The aim of this project is to combine complementary experimental methods (ie neutron scattering and optical spectroscopy), in order to gain a detailed insight into the magnetic and electronic properties of the heterostructures. This is designed to yield a deeper understanding of the underlying physics in order to help develop new materials for next-generation information technology.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE140100042
Funder
Australian Research Council
Funding Amount
$190,000.00
Summary
UV to mid-infrared fluorescence spectrometer for use in mineral analysis, radiation dosimetry, and laser materials characterisation. Ultraviolet to mid-infrared fluorescence spectrometer for use in mineral analysis, radiation dosimetry and laser materials characterisation: This project will provide equipment with a vast capability to collect ultraviolet to mid-infrared fluorescence with high temporal measurement accuracy, and highly flexible excitation (spectral and temporal). This will enhance ....UV to mid-infrared fluorescence spectrometer for use in mineral analysis, radiation dosimetry, and laser materials characterisation. Ultraviolet to mid-infrared fluorescence spectrometer for use in mineral analysis, radiation dosimetry and laser materials characterisation: This project will provide equipment with a vast capability to collect ultraviolet to mid-infrared fluorescence with high temporal measurement accuracy, and highly flexible excitation (spectral and temporal). This will enhance active research into new glasses and laser crystals, probing of defect states resulting from ionising radiation absorption in environmental and medical dosimetry materials, investigation of novel fluorescence techniques for mineral identification, through to improving chemical detection capability (for example, detection of explosives). The instrument comprises modules that enable excitation in the ultraviolet, visible, and infrared from a tunable laser system, and high-efficiency collection and processing of fluorescence spectra.Read moreRead less
Topological spin systems as basis for multifunctional materials. This project aims to investigate the fundamental properties (magnetic structure, surface topology, dynamics and interaction with external stimuli) of topological spin systems. Unconventional topological spin structures at the nanometre scale, such as skyrmions in chiral spin systems, could be used in ultra-low energy electronics and high density data storage. In particular, multi-ferroic skyrmion materials could directly control sk ....Topological spin systems as basis for multifunctional materials. This project aims to investigate the fundamental properties (magnetic structure, surface topology, dynamics and interaction with external stimuli) of topological spin systems. Unconventional topological spin structures at the nanometre scale, such as skyrmions in chiral spin systems, could be used in ultra-low energy electronics and high density data storage. In particular, multi-ferroic skyrmion materials could directly control skyrmions through an external electric field, which makes them ideal for nanoelectronics and data storage for IT applications. This project will create and investigate skyrmion materials as the basis for next generation computer and information technology in Australia.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: LE170100205
Funder
Australian Research Council
Funding Amount
$295,000.00
Summary
Instrumentation for powder X-ray diffraction under extreme conditions. This project aims to enable high quality materials science through the installation of powder X-ray diffraction facilities in the Sydney region. The instrumentation will allow rapid X-ray diffraction studies over a wide temperature range using monochromated high energy beams. This instrumentation is expected to improve condensed matter research from hard condensed materials to coordination polymers, including materials engine ....Instrumentation for powder X-ray diffraction under extreme conditions. This project aims to enable high quality materials science through the installation of powder X-ray diffraction facilities in the Sydney region. The instrumentation will allow rapid X-ray diffraction studies over a wide temperature range using monochromated high energy beams. This instrumentation is expected to improve condensed matter research from hard condensed materials to coordination polymers, including materials engineering, nanoscience and thin films, and energy storage and conversion.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: LE120100112
Funder
Australian Research Council
Funding Amount
$275,000.00
Summary
A Raman facility for advanced research supporting Australia’s natural gas, oil, coal and minerals industries. This modern Raman Spectroscopy facility will support the science and engineering that underpins the production and processing of Australia’s natural resources. Using high-pressure fibre optics, novel lasers and advanced imaging, the facility will enable the monitoring and improvement of processes and materials under extreme conditions.