CORDIS Project
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This project investigates new energy materials for lithium-ion batteries by exploring anionic redox reactions. It combines experimental and computational methods to enhance energy storage capacity and improve water splitting technologies.
Redox chemistry provides the fundamental basis for numerous energy-related electrochemical devices, among which Li-ion batteries (LIB) have become the premier energy storage technology for portable electronics and vehicle electrification.
Throughout its history, LIB technology has relied on cationic redox reactions as the sole source of energy storage capacity.
This is no longer true.
In 2013 we demonstrated that Li-driven reversible formation of (O2)n peroxo-groups in new layered oxides led t…
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