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
Reducing health disparities for culturally and linguistically diverse peoples. This project aims to develop a greater understanding of migrants and the factors that predict poor health outcomes related to blood-borne viruses and sexually transmitted infections. The delayed access by migrants to healthcare from culturally and linguistically diverse backgrounds results in late diagnosis, low treatment uptake, and poorer health outcomes, with enhanced risk of infection and increased burden on the h ....Reducing health disparities for culturally and linguistically diverse peoples. This project aims to develop a greater understanding of migrants and the factors that predict poor health outcomes related to blood-borne viruses and sexually transmitted infections. The delayed access by migrants to healthcare from culturally and linguistically diverse backgrounds results in late diagnosis, low treatment uptake, and poorer health outcomes, with enhanced risk of infection and increased burden on the health system. The data collected in this project will assist in developing health services to meet these needs.Read moreRead less
Transnationalism and diaspora. This study aims to incorporate diaspora, circular migration and transnational linkages into demographic concepts of population and migration. Transnationalism’s replacement of permanent movements as the dominant paradigm in migration studies raises questions for demographic measurement and the study of migration. This project will use traditional demographic data with integrated quantitative and qualitative research to analyse the diaspora–migration–development nex ....Transnationalism and diaspora. This study aims to incorporate diaspora, circular migration and transnational linkages into demographic concepts of population and migration. Transnationalism’s replacement of permanent movements as the dominant paradigm in migration studies raises questions for demographic measurement and the study of migration. This project will use traditional demographic data with integrated quantitative and qualitative research to analyse the diaspora–migration–development nexus. It will study four countries to understand the characteristics of diasporas, their international linkages and their potential for enhancing development in origin countries. This is expected to generate policy advice on how to maximise the economic potential of diaspora.Read moreRead less
Beyond the limits of corrosion detection in inaccessible areas. The project will develop a new technology for medium-range corrosion mapping in inaccessible areas of infrastructure. This will overcome the limitations of existing corrosion inspection techniques for corrosion inspection at inaccessible areas. The project will create a new concept and generate new knowledge on accurate corrosion mapping in inaccessible areas. The expected outcomes are significant improvements in the capability and ....Beyond the limits of corrosion detection in inaccessible areas. The project will develop a new technology for medium-range corrosion mapping in inaccessible areas of infrastructure. This will overcome the limitations of existing corrosion inspection techniques for corrosion inspection at inaccessible areas. The project will create a new concept and generate new knowledge on accurate corrosion mapping in inaccessible areas. The expected outcomes are significant improvements in the capability and practicability over existing corrosion inspection technologies adopted by industry for a wide range of infrastructure, in particular the Oil and Gas, Mining, Energy and Water infrastructure, as well as improving the reliability and cost-efficiency of the corrosion inspection.Read moreRead less
Folding polymers for high-performance energy storage. This project aims to address the current bottleneck of energy storage capability in polymers by developing new compact structures through programmed polymer folding. This project expects to understand how structures determine electrochemistry properties by creating densely packed redox-active polymers to break the limits of charge transfer rates and storage ability. Expected outcomes include deep insights into fundamental electrochemical reac ....Folding polymers for high-performance energy storage. This project aims to address the current bottleneck of energy storage capability in polymers by developing new compact structures through programmed polymer folding. This project expects to understand how structures determine electrochemistry properties by creating densely packed redox-active polymers to break the limits of charge transfer rates and storage ability. Expected outcomes include deep insights into fundamental electrochemical reaction mechanisms, laying a strong foundation for the applications of polymers from flexible electronic devices to micro-grid energy storage. This project should provide significant benefit in new knowledge and support advanced manufacturing using our high value-added materials.Read moreRead less
Low cost aqueous rechargeable zinc batteries for grid-scale energy storage. This project aims to advance energy storage technology by developing high energy aqueous rechargeable zinc batteries, which are the most promising choice for large-scale electrical energy storage, in particular for smart electric grids, owing to their low cost, high safety, and eco-friendly features. The success of this project will advance our fundamental understanding of aqueous rechargeable batteries, provide techniqu ....Low cost aqueous rechargeable zinc batteries for grid-scale energy storage. This project aims to advance energy storage technology by developing high energy aqueous rechargeable zinc batteries, which are the most promising choice for large-scale electrical energy storage, in particular for smart electric grids, owing to their low cost, high safety, and eco-friendly features. The success of this project will advance our fundamental understanding of aqueous rechargeable batteries, provide techniques for the development of a low-cost, high energy, and long life system for renewable energy storage, and benefit Australia's environment, economy, and sustainability.Read moreRead less
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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