Developed instruments. Professor Taro Hitosugi stands by the autonomous experiment system developed by his team. ©2025 ...

The digital laboratory (dLab) system fully automates the material synthesis and structural, physical property evaluation of ...

Discovering new, powerful electrolytes is one of the major bottlenecks in designing next-generation batteries for electric ...

A new article puts artificial intelligence and machine learning on the task of finding new, powerful electrolytes for designing next-generation batteries for electric vehicles, phones, laptops and ...

"With her model, Li studied lithium plating on a graphite anode in a lithium-ion battery. The model revealed how the ... focused on "extreme cases," per the release, but she created a diagram of ...

A research team from the U.S. has developed an artificial intelligence-based framework that can potentially speed up the ...

Lithium-Iron-Phosphate Batteries and Lithium-Ion batteries are used to power a variety of devices, but which battery type is ...

A team partially replaced lithium in a lithium antimonide compound with the metal scandium. This creates specific gaps, so-called vacancies, in the crystal lattice of the conductor material. These ...

Researchers at TUM and TUMint.Energy Research have taken a significant step towards improving solid-state batteries. They ...

TUM researchers unveil a scandium-based material that boosts solid-state battery conductivity, setting a new record for ...