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Discovery Early Career Researcher Award - Grant ID: DE230101011
Funder
Australian Research Council
Funding Amount
$420,818.00
Summary
Developing advanced potassium-sulfur batteries for scalable energy storage. Potassium-sulfur (K-S) batteries are recognised as a promising energy storage technology for large-scale applications, due to their high theoretical capacity, low toxicity and the low cost of both potassium and sulfur. However, their grid-scale development is plagued by safety hazards and fast capacity fade. This project aims to address these challenges by developing atomic-level engineering of host materials for sulfur, ....Developing advanced potassium-sulfur batteries for scalable energy storage. Potassium-sulfur (K-S) batteries are recognised as a promising energy storage technology for large-scale applications, due to their high theoretical capacity, low toxicity and the low cost of both potassium and sulfur. However, their grid-scale development is plagued by safety hazards and fast capacity fade. This project aims to address these challenges by developing atomic-level engineering of host materials for sulfur, K metal anode and solid electrolyte. The outcomes of this project will provide increased understanding of the mechanism for K-S batteries and novel strategies for their development, placing Australia at the forefront of K-S batteries for scalable battery research and supporting our cutting-edge energy storage technology.
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Discovery Early Career Researcher Award - Grant ID: DE230101044
Funder
Australian Research Council
Funding Amount
$444,318.00
Summary
Bio-inspired nanomaterials with tunable drug loading and controlled release. This project aims to develop new platform technologies for making bio-inspired nanomaterials with tunable drug loading and controlled release. This project will revolutionise current approaches to make lipid nanoparticles camouflaged with natural cell membranes for delivery of both insoluble and soluble drugs. Significant outcomes will include a novel commercially relevant salt-induced nanoprecipitation platform technol ....Bio-inspired nanomaterials with tunable drug loading and controlled release. This project aims to develop new platform technologies for making bio-inspired nanomaterials with tunable drug loading and controlled release. This project will revolutionise current approaches to make lipid nanoparticles camouflaged with natural cell membranes for delivery of both insoluble and soluble drugs. Significant outcomes will include a novel commercially relevant salt-induced nanoprecipitation platform technology for making precisely engineered nanomaterials with tailored functions for applications in controlled release and targeted delivery. Benefits include securing a sustainable future for Australia, with new nanotechnology strategies for advanced manufacturing.Read moreRead less
Industry Laureate Fellowships - Grant ID: IL230100039
Funder
Australian Research Council
Funding Amount
$3,516,522.00
Summary
Aqueous sodium batteries for household and smart-grid electricity storage. This project aims to design and commercialise safe, cost-effective, long-lasting, fast-charging, high energy density aqueous sodium-based batteries to store renewable energy for use in households and smart grids. With a focus on developing and scaling technology and in collaboration with industry partners, the project’s expected outcomes include an enhanced ability to store excess energy and modulate its release into a sm ....Aqueous sodium batteries for household and smart-grid electricity storage. This project aims to design and commercialise safe, cost-effective, long-lasting, fast-charging, high energy density aqueous sodium-based batteries to store renewable energy for use in households and smart grids. With a focus on developing and scaling technology and in collaboration with industry partners, the project’s expected outcomes include an enhanced ability to store excess energy and modulate its release into a smart grid during peak demand. Of benefits to Australia, this project will deliver access to reliable, safe and cheap batteries for smart-grid electricity storage in households and a competitive industry manufacturing capability. The downstream benefit is a reduction in energy costs and a contribution to net-zero emissions.
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Discovery Early Career Researcher Award - Grant ID: DE240100952
Funder
Australian Research Council
Funding Amount
$432,237.00
Summary
Developing aluminium-sulfur batteries with high voltage and low cost. As use of renewable energy sources increases, so too does the need for suitable storage systems for the energy produced. Aluminium-Sulfur (Al-S) batteries provide a reliable energy storage option, but suffer from a low voltage output and despite aluminium and sulfur being two of the world’s most abundant and low-cost materials, other components in batteries are prohibitively expensive. This project aims to address these challe ....Developing aluminium-sulfur batteries with high voltage and low cost. As use of renewable energy sources increases, so too does the need for suitable storage systems for the energy produced. Aluminium-Sulfur (Al-S) batteries provide a reliable energy storage option, but suffer from a low voltage output and despite aluminium and sulfur being two of the world’s most abundant and low-cost materials, other components in batteries are prohibitively expensive. This project aims to address these challenges by designing an Al-S battery technology with efficient electrode materials and low-cost electrolytes, making them both cost effective and capable of high levels of energy storage. The outcome will place Australia as a world leader in battery technology and support our future renewable energy storage needs.Read moreRead less