The increasing demands of energy storage require the significant improvement of current Li‐
ion battery electrode materials and the development of advanced electrode materials. Thus …

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 …

Energy storage and conversion systems, including batteries, supercapacitors, fuel cells,
solar cells, and photoelectrochemical water splitting, have played vital roles in the reduction …

Although lithium, and other alkali ion, batteries are widely utilized and studied, many of the
chemical and mechanical processes that underpin the materials within, and drive their …

Taking advantage of an extremely high theoretical capacity of 4200 mAh g− 1, silicon has
been considered one of the most promising anode materials for lithium ion batteries …

Renewable and sustainable energy solution, especially in transportation, is increasingly
becoming an important global issue. Improving upon lithium-ion battery (LIB) energy density …

The development of advanced lithium batteries represents a major technological challenge
for the new century. Understanding the fundamental electrode degradation mechanisms is …

Li-ion batteries experience mechanical stress evolution due in part to Li intercalation into
and de-intercalation out of the electrodes, ultimately resulting in performance degradation. In …

Si-based rechargeable lithium-ion batteries (LIBs) have generated interest as silicon has
remarkably high theoretical specific capacity. It is projected that LIBs will meet the increasing …

Increasing demand for sustainable battery technologies has necessitated substantive global
research efforts towards delivering improvements in terms of both, the underlying battery …