Unveiling Sulfur Reaction Pathways in All-Solid-State Li–S Batteries. All-solid-state lithium–sulfur batteries offer up to ten times the energy density of today's lithium-ion batteries while reducing

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Unveiling Sulfur Reaction Pathways in All-Solid-State Li–S Batteries. All-solid-state lithium–sulfur batteries offer up to ten times the energy density of today's lithium-ion batteries while reducing material costs by over 30% through the use of abundant sulfur. This project aims to unlock their full potential by developing an advanced sulfur electrode material that enhances voltage stability and energy efficiency, ensuring optimal performance and reliability. Expected outcomes of this project include establishing the foundation for the development of longer-range electric vehicles and cost-effective renewable energy storage solutions. This should provide significant benefits, such as strengthening Australia’s battery manufacturing sector while promoting economic and environmental sustainability.. Scheme: Discovery Early Career Researcher Award. Field: 4004 - Chemical Engineering. Lead: Dr Borui Liu