Perpetual photothermal modulation with scalable hybrid graphene films. This project aims to develop a perpetual photothermal modulation theory and device to deliver a highly selective and tunable broadband spectral filter across the entire visible and infrared wavelength range. The tuned nanostructure of the hybrid film can provide an environmentally-friendly solution for efficient thermal energy manipulation. This project significantly contributes to the fundamental understanding of photo-phono ....Perpetual photothermal modulation with scalable hybrid graphene films. This project aims to develop a perpetual photothermal modulation theory and device to deliver a highly selective and tunable broadband spectral filter across the entire visible and infrared wavelength range. The tuned nanostructure of the hybrid film can provide an environmentally-friendly solution for efficient thermal energy manipulation. This project significantly contributes to the fundamental understanding of photo-phonon interactions. The high performance photothermal modulation devices are low-cost and scalable, rendering them of tremendous value for other highly relevant sectors involving thermal energy.Read moreRead less
Development and application of WO3-Mica Multifunctional Nanocomposites . This project aims to develop innovative techniques to produce advanced tungsten oxide/metal oxide/mica composites for paint applications. The findings will be used to develop pearlescent paints for diverse applications in a range of industries, with the potential for huge benefits in improving the value of metal oxides and mica. The findings will be useful in the development of other new materials and provide a foundation f ....Development and application of WO3-Mica Multifunctional Nanocomposites . This project aims to develop innovative techniques to produce advanced tungsten oxide/metal oxide/mica composites for paint applications. The findings will be used to develop pearlescent paints for diverse applications in a range of industries, with the potential for huge benefits in improving the value of metal oxides and mica. The findings will be useful in the development of other new materials and provide a foundation for new applications such as photochromic and self-cleaning paints. This will generate opportunities to develop and apply advanced knowledge to solve significant problems in industry, leading to national economic growth by adding high values of mineral resources in Australia.
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Discovery Early Career Researcher Award - Grant ID: DE180100130
Funder
Australian Research Council
Funding Amount
$368,446.00
Summary
Development of two-dimensional nanoporous membranes. This project aims to develop new desalination membranes able to selectively remove contaminants from liquid effluents with greater cost efficiency and lower environmental footprint. It aims to do this by forming hierarchical membranes, where nanoscale pores generated across nano-porous two-dimensional materials are seeded with highly selective micro-porous crystals. These membranes will reduce the cost of desalination, developing new markets b ....Development of two-dimensional nanoporous membranes. This project aims to develop new desalination membranes able to selectively remove contaminants from liquid effluents with greater cost efficiency and lower environmental footprint. It aims to do this by forming hierarchical membranes, where nanoscale pores generated across nano-porous two-dimensional materials are seeded with highly selective micro-porous crystals. These membranes will reduce the cost of desalination, developing new markets beyond the sole field of water desalination, in resource, solvent recovery and protein fractionation.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE100100098
Funder
Australian Research Council
Funding Amount
$600,000.00
Summary
Advanced facility for next generation sustainable energy, biomedical & nano-imaging optical fibre technologies. Remote optical fibre technologies are the way forward for effective and safe monitoring of many industries, and will play a big part in the sustainability of Australia's core oil, gas and alternative energy sectors. They are equally important to health industry applications, particularly in medical and imaging technologies. This facility brings together world-class Australian expertise ....Advanced facility for next generation sustainable energy, biomedical & nano-imaging optical fibre technologies. Remote optical fibre technologies are the way forward for effective and safe monitoring of many industries, and will play a big part in the sustainability of Australia's core oil, gas and alternative energy sectors. They are equally important to health industry applications, particularly in medical and imaging technologies. This facility brings together world-class Australian expertise—from across nine universities—in advanced structured optical fibres, complex fibre diagnostic systems, nanoscale imaging, and environment monitoring, to design and implement the next generation of technologies that will reduce the impact of climate change through reduced energy consumption and vastly improved health diagnostics.Read moreRead less