Analyzing the battery open-circuit voltage (OCV) curve can help predict battery lifetime, estimate the battery's state of health, and detect capacity anomalies.

The differences between lab-tested batteries and real-world performance are substantial due to production variability and diverse usage conditions.

Despite monitoring solutions, the risk of a battery fire is possible. Safety measures using fire protection materials in the battery system are important.

Experts use “aging models” to replicate how a battery degrades throughout its lifetime. Mechanistic modeling focuses on what is happening within the battery.

Sodium-ion batteries might not replace all lithium-ion batteries on the market, but will be applied where high energy densities are not necessarily required.

Learn how the Battery Passport, a digital record of battery lifecycle info, and ESG regulations aid the transition to more sustainable mobility.

The smarter E Europe 2023, Europe’s largest platform for the energy industry, united global leaders for knowledge exchange. Here are 5 key takeaways.

Battery aging is complex, non-linear and influenced by many factors. It is common to split aging into three buckets: calendric, cyclic, and reversible aging.