As the electric vehicle era enters full scale, demand is increasing for batteries that can travel farther and last longer.

FAYETTEVILLE, GA, UNITED STATES, March 3, 2026 /EINPresswire.com/ -- Researchers from Tsinghua University explore how ...

Researchers have developed a new AI model that predicts dendritic growth in thin films, helping optimize thin-film growth processes. Thin films are grown by depositing tiny layers of materials onto a ...

Lithium dendrites pose a significant challenge to the development of high-energy Li metal batteries. They can fracture solid-state electrolytes, compromising device safety and performance. Therefore, ...

This study is led by Prof. Chuan Wu. Serving as one of the most promising candidates among multivalent metal batteries, rechargeable aluminum batteries (RABs) are endowed with various advantages ...

A Korean research team has developed a self-adjusting protective layer that suppresses dendrite growth in lithium-metal batteries, paving the way for EVs that could charge fully in just 12 minutes.

Lithium metal is considered as an ideal anode material due to its exceptionally high theoretical capacity and low electrochemical potential. However, during repeated charging and discharging, lithium ...

Edwin L. Dunnavan, Jacob T. Carlin, Jiaxi Hu, Petar Bukovčić, Alexander V. Ryzhkov, Greg M. McFarquhar, Joseph A. Finlon, Sergey Y. Matrosov and David J. Delene This study evaluates ice particle size ...

The PCA enabled the team to quantify the structural changes in dendrites and correlate these changes with Gibbs free energy. This relationship revealed the specific conditions and mechanisms that ...