Molecularly-selective metal separations are key to sustainable recycling of Li-ion battery
electrodes. However, metals with close reduction potentials present a fundamental …

A fundamental challenge, shared across many energy storage devices, is the complexity of
electrochemistry at the electrode–electrolyte interfaces that impacts the Coulombic …

Electrochemical recovery of the cobalt in deep eutectic solvent shows its promise in
recycling and recovery of valuable elements from the spent lithium‐ion battery due to its high …

With the global trend towards carbon neutrality, the demand for lithium-ion batteries (LIBs) is
continuously increasing. However, current recycling methods for spent LIBs need urgent …

Aggressive chemistry involving Li metal anode (LMA) and high-voltage LiNi0. 8Mn0. 1Co0.
1O2 (NCM811) cathode is deemed as a pragmatic approach to pursue the desperate 400 …

Development of high-performance lithium metal batteries with a wide operating temperature
range is highly challenging, especially in carbonate electrolyte. Herein, a multifunctional …

Lithium metal is an ideal electrode material for future rechargeable lithium metal batteries.
However, the widespread deployment of metallic lithium anode is significantly hindered by …

The lithium (Li) metal anode suffers severe interfacial instability from its high reactivity
toward liquid electrolytes, especially carbonate-based electrolytes, resulting in poor …

The physiochemical properties of the solid-electrolyte interphase, primarily governed by
electrolyte composition, have a profound impact on the electrochemical cycling of metallic …

Transition metals and related compounds are known to exhibit high catalytic activities in
various electrochemical reactions thanks to their intriguing electronic structures. What is …