Lithium-ion batteries decay every time as it is used. Aging-induced degradation is unlikely to
be eliminated. The aging mechanisms of lithium-ion batteries are manifold and complicated …

Lithium-ion batteries, simply known as lithium batteries, are distinct among high energy
density charge-storage devices. The power delivery of batteries depends upon the …

Solid electrolyte interphases generated using electrolyte additives are key for anode-
electrolyte interactions and for enhancing the lithium-ion battery lifespan. Classical solid …

Ten years ago, a comprehensive review was compiled for a thematic issue of Chemical
Reviews, covering fundamentals, history, and state-of-the-art for nonaqueous electrolytes …

The formation behaviors of LiF nanocrystals have been studied on anodes in Li-ion
batteries; there is no research work reporting LiF crystal growth on cathodes. Here, we report …

Lithium-ion batteries have become the focus of research interest, thanks to their numerous
benefits for vehicle applications. One main limitation of these technologies resides in the …

Structural stability and mechanical integrity of electrode materials during
lithiation/delithiation influence the performance of Li-ion batteries. Significant dimensional …

The solid electrolyte interface (SEI) layer plays a critical role in the cycle life of Li-ion
batteries. The potential difference across the SEI during charging results in the potential for …

The demand for safer and cost-effective lithium-ion batteries with higher energy density and
longer life requires thorough investigation into the structural and electrochemical behavior of …

Temperature heavily affects the behavior of any energy storage chemistries. In particular,
lithium-ion batteries (LIBs) play a significant role in almost all storage application fields …