The advancement of potassium ion batteries (PIBs) stimulated by the dearth of lithium
resources is accelerating. Major progresses on the electrochemical properties are based on …

One of the major issues associated with Li-ion batteries is the stress development in
electrode materials. Such stresses arise primarily from dimensional changes …

Revealing how formation protocols influence the properties of the solid‐electrolyte
interphase (SEI) on Si electrodes is key to develo** the next generation of Li‐ion batteries …

Production of high-aspect-ratio silicon (Si) nanowire-based anode for lithium ion batteries is
challenging particularly in terms of controlling wire property and geometry to improve the …

Because of its high specific capacity, silicon is regarded as the most promising candidate to
be incrementally added to graphite‐based negative electrodes in lithium‐ion batteries …

Enhancing the stability and fast-charging capability of battery electrodes is of paramount
importance in the field of battery technology. Silicon (Si), renowned for its high specific …

A central challenge in practically using high‐capacity silicon (Si) as anode materials for
lithium‐ion batteries is alleviating significant volume change of Si during cycling. One key to …

The effects of a biomass-derived hard carbon matrix and a sustainable cross-linked binder
are investigated as electrode components for a silicon-based anode in lithium-ion half-cells …

Silicon anodes offer a very promising approach to boost the energy density of lithium-ion
batteries. While silicon anodes show a high capacity and, depending on the system, a good …

Silicon has attracted considerable attention for use as high-capacity anodes of lithium-ion
microbatteries. However, its extreme volume change upon (de-) lithiation still poses a …