Understanding how Li-ion batteries work is key to effectively integrating them into a system. This quiz focuses on the ...

Learn essential lithium-ion battery safety tips to prevent overheating, explosions, and fire hazards. Ensure proper handling and disposal for safety.

A research team in South Korea has developed a breakthrough transfer printing technology that forms protective thin layers on ...

A battery backup for the solar-mains hybrid lamp design that supplies a constant light output regardless of available solar ...

These battery-cell controllers boost performance, accuracy, and safety without changing the chemistry inside lithium-ion ...

A breakthrough study has developed a model that accurately predicts the failure of lithium metal anodes using electrochemical curve data from just the first two cycles. The model offers new insights ...

This paper presents characterization for equivalent circuit model (ECM) parameters variation for lithium-ion capacitor (LiC) under different voltage values. A set of experimentally obtained ...

The clean energy revolution requires a lot of batteries. While lithium-ion dominates today, researchers are on a quest for better materials.

The state of charge (SOC) is an essential indicator needed for a proper and safe operation of a battery. A large majority of methods used to estimate SOC rely on the open circuit voltage (OCV) curve.

Learn about ETFs that provide investments in top lithium and battery technology for the electric vehicle industry.

Ilika CEO Graeme Purdy on beating lithium-ion with safer, higher-performing solid-state batteries for EVs and beyond.

Traditional lithium-ion batteries rely on polymer separators for safety, which are designed to melt or shrink at around 160 °C to halt battery operation.