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: 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
Flexible molecular crystals: single crystals that bend, stretch and twist. This project aims to thoroughly quantify the elastic flexibility of a suite of metal-organic molecular crystals. Since antiquity, crystalline materials have been thought to be brittle and inflexible. Crystals can, in fact, display appreciable, even remarkable, elasticity. Some crystals can bend, stretch and twist. The influence that the molecules, and their arrangements in crystals, have on the extent of elasticity will b ....Flexible molecular crystals: single crystals that bend, stretch and twist. This project aims to thoroughly quantify the elastic flexibility of a suite of metal-organic molecular crystals. Since antiquity, crystalline materials have been thought to be brittle and inflexible. Crystals can, in fact, display appreciable, even remarkable, elasticity. Some crystals can bend, stretch and twist. The influence that the molecules, and their arrangements in crystals, have on the extent of elasticity will be determined along with molecular-scale mechanisms for contortion. This information will be used to design new crystals with predictable and tunable elasticity for potential applications previously considered impossible for crystalline materials.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE110100169
Funder
Australian Research Council
Funding Amount
$300,000.00
Summary
Ultraviolet, visible and infrared spectroscopic ellipsometers for advanced materials and device characterisation. The ellipsometers at this facility will enable optical characterisation of several advanced materials in the wide spectral range of 250 nanometres - 30 micrometres. As well as refractive index and thickness measurement, they will provide absorption spectroscopy which will allow assessment of novel glasses and surface functionalisation approaches for the optimisation of new sensing te ....Ultraviolet, visible and infrared spectroscopic ellipsometers for advanced materials and device characterisation. The ellipsometers at this facility will enable optical characterisation of several advanced materials in the wide spectral range of 250 nanometres - 30 micrometres. As well as refractive index and thickness measurement, they will provide absorption spectroscopy which will allow assessment of novel glasses and surface functionalisation approaches for the optimisation of new sensing technologies.Read moreRead less
Benchmarking of advanced scattering probes for materials characterisation. The project seeks to establish the accuracy and validity of different methods of nanoscale structure determination. Nanoscale structure is crucial to the properties of many modern materials with diverse applications: e.g. sensors and actuators in cell phones; smart shock absorbers and fuel injectors in cars; memory devices; drug delivery devices.
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
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE200100136
Funder
Australian Research Council
Funding Amount
$1,100,000.00
Summary
High Performance Solid State NMR Spectroscopy for Materials Research. The project will support research in a diverse set of fields such as biomedical engineering catalysis, energy storage and waste recovery, with cutting edge next-generation solid state (400 MHz) nuclear magnetic resonance capabilities and research expertise. The system enabling high sensitivity, high throughput analysis over extended temperature range will enable addressing of fundamental questions regarding the structure-prope ....High Performance Solid State NMR Spectroscopy for Materials Research. The project will support research in a diverse set of fields such as biomedical engineering catalysis, energy storage and waste recovery, with cutting edge next-generation solid state (400 MHz) nuclear magnetic resonance capabilities and research expertise. The system enabling high sensitivity, high throughput analysis over extended temperature range will enable addressing of fundamental questions regarding the structure-property relationships of advanced functional materials. Accessible to a wide user base in fundamental and applied research, in medicine, energy, catalysis and recycling of waste, the project will extend the current facilities to develop Sydney as regional centre for advanced solid state nuclear magnetic resonance analysis.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE150100187
Funder
Australian Research Council
Funding Amount
$290,000.00
Summary
SA Facility for High Resolution Imaging and Material Characterization. Facility for high resolution imaging and material characterisation: The aim of this project is to establish a facility that will allow researchers to visualise and analyse structure at nanoscale resolutions. The development of the next generation of opto-electronics, electrochemical and biomedical devices requires tools that can quickly visualise and characterise complex materials at multiscale. The new collaborative nano in ....SA Facility for High Resolution Imaging and Material Characterization. Facility for high resolution imaging and material characterisation: The aim of this project is to establish a facility that will allow researchers to visualise and analyse structure at nanoscale resolutions. The development of the next generation of opto-electronics, electrochemical and biomedical devices requires tools that can quickly visualise and characterise complex materials at multiscale. The new collaborative nano infrared thermal analysis facility is essential to meet the demands of a large number of innovative projects conducted by multidisciplinary consortia of researchers. Located in state-of-the art laboratories and managed as open access resources, the facility will enable and advance research in the areas of energy harvesting, environmental monitoring, biomedical devices, food and pharmaceuticals.Read moreRead less
Platform technologies for multifunctional nanocarrier systems. Smart targeted nanocarriers offer new opportunities for drug delivery. This project aims to develop new platforms for reproducibly producing and screening targeted nanocarriers. The platform technologies developed in this project aim to revolutionise current strategies for designing and evaluating drug delivery systems, and will accelerate the clinical translation of targeted drug delivery. This will include a novel one-step microflu ....Platform technologies for multifunctional nanocarrier systems. Smart targeted nanocarriers offer new opportunities for drug delivery. This project aims to develop new platforms for reproducibly producing and screening targeted nanocarriers. The platform technologies developed in this project aim to revolutionise current strategies for designing and evaluating drug delivery systems, and will accelerate the clinical translation of targeted drug delivery. This will include a novel one-step microfluidic platform technology for reproducibly producing targeted polymer nanocarriers having systematically varied properties, a dual-templating method for making targeted silica nanocapsules and new design of in vivo-mimicking 'Tissue Chips' for screening and evaluating the nanocarriers.Read moreRead less