Electrochemical processes in devices like solar cells, fuel cells, lithium batteries, and water desalination systems rely on the safe, efficient, and robust transport of anions and cations between ...

Those AI systems are optimized to predict outcomes, but not to explain the chemistry behind the electrolytes. To address this challenge, You and Zhilong Wang, a postdoctoral researcher who is first ...

A cross-continental team from North China Electric Power University, TU Ilmenau and the University of Central Florida, led by professors Huajun Tian, Yong Lei and Yang Yang, has released a 34-page ...

Researchers have developed a new and unconventional battery chemistry aimed at producing batteries that last longer than previously thought possible. Researchers have challenged a long-held assumption ...

Single MXene flakes show two electrolyte dependent redox pathways, clarifying nanoscale charge transfer and guiding development of fast pseudocapacitors. (Nanowerk News) MXene materials are promising ...

There's a new battery chemistry in town, and it's supposed to have triple the energy density of lithium-ion cells. Share on Facebook (opens in a new window) Share on X (opens in a new window) Share on ...

Team develops a commercially viable and safe gel electrolyte for lithium batteries. Professor Soojin Park, Seoha Nam, a PhD candidate, and Dr. Hye Bin Son from the Department of Chemistry at Pohang ...

Chinese scientists have announced a significant advancement in lithium battery technology. They have achieved an energy density of approximately 700 watt-hours per kilogram, according to a report. The ...

Conventional AI frameworks treat electrolyte formulations as uniform collections of input variables and learn statistical correlations between those inputs and properties such as conductivity. Those ...