Silicon (Si)-based materials have the highest capacity among the investigated anode
materials and have been recognized as one of the most promising materials for lithium-ion …

Prompted by its overwhelming benefits, silicon (Si) has evolved as one of the most
promising anode materials for high-capacity lithium-ion batteries (LIBs). However, some of …

Fluoroethylene carbonate (FEC) has become a standard electrolyte additive for use with
silicon negative electrodes, but how FEC affects solid electrolyte interphase (SEI) formation …

Despite the high theoretical capacity of Si anodes, the electrochemical performance of Si
anodes is hampered by severe volume changes during lithiation and delithiation, leading to …

In this paper, the surface of composite electrodes made of nano-silicon is studied by using
two surface characterization techniques: X-ray Photoelectron Spectroscopy (XPS) and …

With a specific capacity of 3600 mA hg− 1, silicon is a promising anode active material for Li-
ion batteries (LIBs). However, because of the huge volume changes undergone by Si …

Nonaqueous solvents in modern battery technologies undergo electroreduction at negative
electrodes, leading to the formation of a solid–electrolyte interphase (SEI). The mechanisms …

Silicon has emerged as a prominent candidate for anodes in advanced lithium-ion batteries
due to its exceptional theoretical capacity and low operational potential. Despite its …

Stability and high energy densities are essential qualities for emerging battery electrodes.
Because of its high specific capacity, silicon has been considered a promising anode …

Carbon-covered silicon nanoparticles (Si@ C) were synthesized for the first time by a one-
step continuous process in a novel two stages laser pyrolysis reactor. Crystallized silicon …