Removal and degradation of microplastics using halloysite nanocomposite. The project aims to utilize halloysite clay combined with novel highly magnetized nanoparticles for the removal and degradation of microplastics in the contaminated water system. The project expects to fabricate cheap and environmentally-friendly materials using innovative chemical synthesis and surface modification for adsorption and decomposition of microplastics utilizing both high surface area of halloysite nanotubes a ....Removal and degradation of microplastics using halloysite nanocomposite. The project aims to utilize halloysite clay combined with novel highly magnetized nanoparticles for the removal and degradation of microplastics in the contaminated water system. The project expects to fabricate cheap and environmentally-friendly materials using innovative chemical synthesis and surface modification for adsorption and decomposition of microplastics utilizing both high surface area of halloysite nanotubes and catalytic activity of transition metals. This project will facilitate collaboration between multidisciplinary researchers and a vibrant group of industrial participants to advance next-generation composite materials for water treatment and ensure the supply of clean water for healthy living.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