Electrodeposited Cathodes with Tunable Stoichiometry for Alkaline Batteries. The growing dependency on intermittently-available renewable energy sources has resulted in metal-ion batteries being adopted as the most common solution; yet its fabrication requires multi-stage high-temperature processing leading to high costs, quality issues, and reduced service life. Thus, the present project targets the room-temperature fabrication of binary and ternary oxide cathodes by a single-step, high-yield, ....Electrodeposited Cathodes with Tunable Stoichiometry for Alkaline Batteries. The growing dependency on intermittently-available renewable energy sources has resulted in metal-ion batteries being adopted as the most common solution; yet its fabrication requires multi-stage high-temperature processing leading to high costs, quality issues, and reduced service life. Thus, the present project targets the room-temperature fabrication of binary and ternary oxide cathodes by a single-step, high-yield, cost-effective technique and their integration into Na-ion batteries with minimal and no processing. The expected outcomes from this novel and efficient device fabrication can lead to significant commercial, social, and environmental benefits owing to the advancement of the battery industry and associated job creation.
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Nanoengineered, Encapsulated Catalysts from Fly Ash Waste. This project aims to deliver advanced catalysts and novel catalyst synthesis methods from the use of iron-rich fly ash, an otherwise abundant valueless waste with projected steady growth across Australia and globally. The as-synthesised catalysts are expected to be applicable to and exhibit excellent activity in the production of green hydrogen and renewable bio-fuels from lignocellulosic waste. These efforts are significant and benefici ....Nanoengineered, Encapsulated Catalysts from Fly Ash Waste. This project aims to deliver advanced catalysts and novel catalyst synthesis methods from the use of iron-rich fly ash, an otherwise abundant valueless waste with projected steady growth across Australia and globally. The as-synthesised catalysts are expected to be applicable to and exhibit excellent activity in the production of green hydrogen and renewable bio-fuels from lignocellulosic waste. These efforts are significant and beneficial in restoring the manufacturing capability of Australian industry, driving Australian industry towards the development of a circular economy for the appropriate management of solid waste, as well as for a seamless introduction of renewable and clean energy sources to address the pressing climate change.Read moreRead less
Fate of PAPs and short-chain PFAS in biosolids amended soils. Biosolids generated during wastewater treatment contain PFAS which are persistent, bioaccumulative and toxic. Application of biosolids to agricultural land may result in soil, groundwater and surface water PFAS contamination via leaching and run-off and pose unknown potential risk to soil health, crops and beneficial biota. This study aims to generate novel knowledge on the PFAS fate in biosolid amended soils, crops and toxicity to ke ....Fate of PAPs and short-chain PFAS in biosolids amended soils. Biosolids generated during wastewater treatment contain PFAS which are persistent, bioaccumulative and toxic. Application of biosolids to agricultural land may result in soil, groundwater and surface water PFAS contamination via leaching and run-off and pose unknown potential risk to soil health, crops and beneficial biota. This study aims to generate novel knowledge on the PFAS fate in biosolid amended soils, crops and toxicity to key soil and aquatic biota at environmentally relevant concentrations. This study is supported by Australian water and its allied industries, as it is important for them to ensure that biosolids application to agricultural land is an environmentally sustainable solution to the Australian farmers and communities.Read moreRead less