Nanostructured silicon is a promising anode material for high-performance lithium-ion
batteries, yet scalable synthesis of such materials, and retaining good cycling stability in …

Silicon is a promising high-capacity anode material for lithium-ion batteries yet attaining long
cycle life remains a significant challenge due to pulverization of the silicon and unstable …

Silicon-based lithium ion battery anodes are attracting significant attention because of
silicon's exceptionally high lithium capacity. However, silicon's large volume change during …

Porous structured silicon has been regarded as a promising candidate to overcome
pulverization of silicon-based anodes. However, poor mechanical strength of these porous …

Nanostructured silicon is promising for high capacity anodes in lithium batteries. The specific
capacity of silicon is an order of magnitude higher than that of conventional graphite anodes …

Recently, silicon-based lithium-ion battery anodes have shown encouraging results, as they
can offer high capacities and long cyclic lifetimes. The applications of this technology are …

Specific design and optimization of the configuration of micro-scale materials can effectively
enhance battery performance, including volumetric density. Herein, we employed …

Highly monodisperse porous silicon nanospheres (MPSSs) are synthesized via a simple
and scalable hydrolysis process with subsequent surface-protected magnesiothermic …

Nanostructured silicon has generated significant excitement for use as the anode material
for lithium-ion batteries; however, more effort is needed to produce nanostructured silicon in …

Silicon is a promising candidate for the anode material in lithium-ion batteries due to its high
theoretical specific capacity. However, volume changes during cycling cause pulverization …