Lithium–sulfur battery research continues to evolve in response to the growing demand for high-energy, cost-effective storage solutions in applications ranging from electric vehicles to grid ...

At a time when electrified vehicles and stationary energy storage play key roles in the climate-neutral future of the energy ...

The battery tech startup had plans to manufacture its solid-state battery, but it seems to have concluded that there was no ...

As electric vehicles and renewable energy storage become central to the global energy transition, the battery supply chain is ...

Electric mobility is making great strides in Germany and across Europe. Building further momentum will require an extensive ...

Even the best batteries fall far short of animal metabolism for energy storage. Fueling robots with ‘food’ could narrow the ...

Your smartphone, electric car and home solar array all share a hidden truth: the humble lithium‑ion battery powering them was first commercialized in 1991. Today, three decades later, the U.S. still ...

Sodium and sulfur are more abundant than lithium, which could relieve some cost and supply chain issues associated with lithium-ion batteries. They also offer higher energy density than lithium ...

New battery chemistries such as lithium-sulfur and metal-air offer a more promising path forward. These systems have much ...

which supports efficient sulfur conversion and electrochemical performance, even at reduced electrolyte volumes Ensuring the safety of lithium-ion power batteries is the primary prerequisite for ...

The facility enables comprehensive end-to-end battery development, including material synthesis, coin cell fabrication, and electrochemical performance evaluation. Mumbai: In a significant step toward ...