The amount of deployed battery energy storage systems (BESS) has been increasing
steadily in recent years. For newly commissioned systems, lithium-ion batteries have …

Extending lithium-ion battery lifetime is essential for mainstream uptake of electric vehicles.
However, battery degradation is complex and involves coupling of underpinning …

The observed shift to a fully electrified transport sector with steadily increasing sales of
battery electric vehicles has led to their wider use under demanding operation conditions …

In this study, the reversible thickness change of a large-format lithium-ion automotive pouch
cell is investigated under precisely monitored cell pressure and temperature using an in …

Silicon (Si) with high specific capacity, abundant reserve, and low cost is a promising
replacement for graphite in anodes of next‐generation lithium‐ion batteries (LIBs). However …

Lithium-ion batteries with composite anodes of graphite and silicon are increasingly being
used. However, their degradation pathways are complicated due to the blended nature of …

Two types of commercial cylindrical cells in the format 18650 both with NCA cathode and
anodes containing different silicon materials were electrochemically long-term cycled. Two …

Reducing the capacity utilization of silicon-containing anodes and choosing the optimal full-
cell voltage window improve the lifetime significantly. In this study, we investigate how …

Controlling mechanical stress in silicon-based anode has been proved to be an effective
method in improving the cycling performance of silicon-based lithium-ion battery. This work …

The energy density of lithium-ion batteries can be improved by adding silicon as a
secondary active anode material alongside graphite. However, accurate state estimation of …