Lithium-based rechargeable batteries have dominated the energy storage field and attracted
considerable research interest due to their excellent electrochemical performance. As …

Electrolytes have recently regained significant attention in rechargeable batteries due to the
discovery that the electrolyte microstructures play a determinant role in battery performance …

Severe dendrite growth and high‐level activity of the lithium metal anode lead to a short life
span and poor safety, seriously hindering the practical applications of lithium metal batteries …

The growth of lithium dendrites hinders the commercial applications of lithium‐metal
batteries. Electrolytes play a crucial role in influencing electrode/electrolyte interfacial …

Ideal rechargeable lithium battery electrolytes should promote the Faradaic reaction near
the electrode surface while mitigating undesired side reactions. Yet, conventional …

Electrolyte is critical for transporting lithium‐ion (Li+) in lithium‐ion batteries (LIBs). However,
there is no universally applicable principle for designing an optimal electrolyte. In most …

The electric double layer (EDL) plays a pivotal role in the interfacial reactions that occur
within lithium batteries. However, theoretical models beyond the empirical Guy-Chapman …

One major challenge in lithium metal anodes is to the uncontrollable growth of lithium
dendrites while occurring the volume expansion in the long-term cycle. In this work, the …

High-voltage lithium metal batteries (HV-LMBs) comprising Ni-rich cathodes (such as LiNi
0.8 Mn 0.1 Co 0.1 O 2) and a lithium metal anode (LMA) are highly promising with an energy …

Niobium-based bimetallic oxide, as a potential anode material for fast-charging lithium-ion
batteries, has attracted much attention owing to its unique lithium intercalation channel …