A novel proton exchange membrane developed by Korean researchers enhances electrochemical hydrogen storage, improving efficiency and reducing toluene crossover.

A Korean research team has developed a new proton exchange membrane (PEM) that significantly enhances the performance of ...

Breakthrough in real-time monitoring and intelligent process optimization unlocks safer more efficient high-pressure green ...

Researchers at Dongguk University unveiled a nanoscale-engineered hybrid anode material that enhances Li-ion battery energy ...

While graphite, the most common anode material in lithium-ion batteries ... crystallization of the surrounding hard carbon. During electrochemical cycling, the reversible formation of Sn ...

While graphite, the most common anode ... electrochemical cycling, the reversible formation of Sn–O bonds contributes to enhancing battery capacity via conversion reactions. The engineered electrode ...

This study presents an Al-Li/LiF artificial interphase that enhances lithium metal battery performance, reducing dead lithium ...

A Korean research team has developed a new proton exchange membrane (PEM) that significantly enhances the performance of electrochemical hydrogen ...

New research reveals that higher active site density isn't always better for aqueous zinc-ion batteries. Learn how optimized ...

In this setup, the in situ electrochemical reduction of H 2 O byproduct generates H 2 and O 2- ions. These O 2- ions then ...