A research team led by Professor Kyeong-Min Jeong in the School of Energy and Chemical Engineering at UNIST, has unveiled an ...

Metal-based electrodes in lithium-ion batteries promise significantly higher capacities than conventional graphite electrodes ...

Tohoku University researchers used MRI to observe metal ion dissolution in lithium-ion batteries, providing real-time ...

Tin foam can absorb mechanical stress during battery charging, making it an interesting material for lithium batteries.

South Korean researchers have developed a groundbreaking battery electrode that maximizes thickness without the ...

Tin foam technology could advance lithium-ion batteries, offering higher capacity, longer lifespan, and potentially lower costs.

Abstract Designing thick electrodes is essential for applications of lithium-ion batteries that require high energy densities. Introducing a dry ...

HZB researchers have discovered that highly porous tin foam can mitigate mechanical stress in lithium-ion batteries, making ...

To test it, the researchers essentially built a lithium-free lithium battery. Then, using an electrolyte with dissolved LiSO ...

Researchers develop biodegradable, stretchable Mg–Mo batteries using gelatin–organic acid electrolytes, boosting ionic ...

The method involves injecting fresh lithium into degraded batteries using a specialized lithium compound, potentially ...