Lithium has emerged as one of the most valuable resources in the modern economy, primarily due to its essential role in ...

Key components in a traditional lithium-ion battery include an anode, electrolyte, separator and cathode. They all work together to shuttle electrons between an EV’s charge and discharge cycles. The ...

Groundbreaking research reveals a hidden degradation mechanism in lithium-ion batteries, offering insights for extending ...

While Karl Fischer (KF) titration is known as the champion of battery manufacturing quality control, techniques such as Loss-on-Drying (LOD) and Thermogravimetric Analysis (TGA) help it achieve its ...

A team of chemists led by Feng Lin and Louis Madsen found a way to see into battery interfaces, which are tight, tricky spots ...

Battery energy storage systems (BESS) are revolutionizing how energy is managed. These systems are critical for improving ...

Energy storage systems (ESS) are critical for grid stability as renewable energy adoption accelerates, but safety concerns ...

LLZO-based solid-state batteries show limited energy density gains and face production challenges; hybrid electrolytes may be ...

The atomic energy of betavoltaic batteries can power a variety of devices, from aerospace and robots to your future ...

When battery cells overheat or are damaged, volatile electrolyte vapours can be released and may ignite, triggering fires or ...

Should you drain your battery case before charging? No, it isn’t necessary to drain the lithium-based batteries found in battery cases. If you let your battery fully drain completely ...

Geopolitical Appeal: China’s dominance in lithium-ion supply chains poses a paradox—it benefits from existing battery technology but sees value in proving gravity battery concepts. Should ...