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
Developing lithium metal batteries – a game-changer for renewable energy. This project aims to develop nanostructured lithium metal anodes for rechargeable lithium metal batteries with high energy density and excellent cycle life. Lithium metal batteries such as lithium-sulfur batteries and lithium carbon-dioxide batteries present great opportunities for long-range electric vehicles and high-efficient renewable energy storage. Through the rational structure design and advanced interface engineer ....Developing lithium metal batteries – a game-changer for renewable energy. This project aims to develop nanostructured lithium metal anodes for rechargeable lithium metal batteries with high energy density and excellent cycle life. Lithium metal batteries such as lithium-sulfur batteries and lithium carbon-dioxide batteries present great opportunities for long-range electric vehicles and high-efficient renewable energy storage. Through the rational structure design and advanced interface engineering, the developed lithium metal anodes are expected to overcome the critical issues that hindered their practical application for high-energy batteries. The success of this project will provide new technological solutions for next-generation energy storage devices.Read moreRead less