Deposition of Lithium metal on anodes contributes significantly to ageing of Li-ion cells.
Lithium deposition is connected not only to a drastic limitation of life-time, but also to fast …

Recent high-energy lithium-ion batteries contain highly densified electrodes, but they are
expected to endure fast charging without safety compromises or accelerated aging. To …

In this work, lithium plating is investigated by means of voltage relaxation and in situ neutron
diffraction in commercial lithium-ion batteries. We can directly correlate the voltage curve …

The demand for large format lithium-ion batteries is increasing, because they can be
integrated and controlled easier at a system level. However, increasing the size leads to …

The ability to correctly predict the behavior of lithium ion batteries is critical for safety,
performance, cost and lifetime. Particularly important for this purpose is the prediction of the …

Understanding lithium-ion battery degradation is critical to unlocking their full potential. Poor
understanding leads to reduced energy and power density due to over-engineering, or …

Large-format lithium-ion batteries (LIBs) have attracted extensive concern due to the
advantages of increasing energy density and reducing manufacturing costs. However …

Cylindrical formats for high energy lithium-ion batteries shifted from 18650 to 21700 types
offering higher volumetric energy density and lower manufacturing costs. Bigger formats …

A physical-chemical model is suggested, which is able to describe the enhanced discharge
rate capability of lithium-ion cells by using laser-structured graphite anodes. Recently …

Inhomogeneity within lithium-ion battery modules can occur due to variations in capacity and
impedance of the connected cells as well as due to thermal gradients or cell connector …