Over the last few decades, lithium-ion (Li-ion) batteries have attracted significant attention
due to their high energy density, low maintenance, and the variety of shapes, chemistries …

Lithium-ion cells currently power almost all electronic devices and power tools; they are a
key enabling technology for electric vehicles and are increasingly considered to be the …

Abstract Machine-learning based methods have been widely used for battery health state
monitoring. However, the existing studies require sophisticated data processing for feature …

This paper proposes an advanced state of health (SoH) estimation method for high energy
NMC lithium-ion batteries based on the incremental capacity (IC) analysis. IC curves are …

Degradation of Lithium-ion batteries is a complex process that is caused by a variety of
mechanisms. For simplicity, ageing mechanisms are often grouped into three degradation …

Driven by the continuous search for improving performances, understanding the
phenomena at the electrode/electrolyte interfaces has become an overriding factor for the …

The idea that electric vehicles can connect to the electric grid to provide ancillary services,
such as frequency regulation, peak shaving and spinning reserves is compelling, especially …

Understanding the root causes of Lithium-ion battery degradation is a challenging task due
to the complexity of the different mechanisms involved. For simplicity, ageing mechanisms …

Conspectus Though relatively young, the mechanistic modeling approach has gained
tremendous traction in the past decade as it was proven to be extremely versatile and …

Differentiation of a Li-ion battery cycling profile (galvanostatic voltage vs charge) yields a
pair of complementary measures: differential capacity (d Q/d V vs voltage, also called …