Lithium metal batteries promise dramatically higher energy density than today’s lithium-ion systems, yet their widespread use remains limited by unstable lithium deposition, dendrite growth, and rapid ...

Dr. Jung-Je Woo from the Gwangju Clean Energy Research Center at the Korea Institute of Energy Research (KIER), along with Professor Jaephil Cho's research team from Ulsan National Institute of ...

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 new manufacturing technique is helping to overcome some of the major hurdles in developing more reliable and durable all-solid-state batteries. Combining a controlled sintering step with precise ...

In a recent study published in Small, researchers introduced a three-dimensional, freestanding porous carbon nanofiber (PCNF) structure embedded with silicon oxide (SiOx), designed to address critical ...

These issues often stem from material limitations, including poor ion transport, unstable electrode interfaces, and dendrite formation in metal-based anodes. Overcoming these barriers requires ...

In a recent study published in the journal eScience, researchers from Northeastern University presented a new method for building a KF/Zn-rich hybrid interface layer on potassium metal. With the ...

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 ...