What did Argonne National Laboratory researchers discover about battery issues?

Researchers identified internal stress as the cause of cracking, leading to battery capacity fade and shorter lifespans.

How do single-crystal cathodes differ from polycrystalline ones at UChicago PME?

Single-crystal cathodes have distinct degradation mechanisms and require different design rules than polycrystalline materials.

What role does cobalt play in new battery designs, according to the study?

Cobalt was found to improve the durability and extend the life of single-crystal battery cathodes.

Home / Technology / Battery Cracks Solved: Longer Life, Safer EVs Ahead

Battery Cracks Solved: Longer Life, Safer EVs Ahead

30 Dec, 2025

•

Summary

New research reveals internal stress causes battery material cracking.
Single-crystal cathodes need different design rules than polycrystalline ones.
Cobalt improves single-crystal battery durability, contrary to prior beliefs.

Battery Cracks Solved: Longer Life, Safer EVs Ahead

Scientists at Argonne National Laboratory and the Pritzker School of Molecular Engineering have pinpointed the cause of persistent problems in lithium-ion batteries, such as fading capacity and reduced lifespan. The research clarifies why certain advanced battery materials degrade faster than anticipated and suggests methods to mitigate these failures.

Previous efforts focused on single-crystal cathodes to avoid cracking seen in polycrystalline materials. However, these single-crystal versions often underperformed. The new study reveals that design rules for polycrystalline cathodes were incorrectly applied to single-crystal materials, leading to unexpected degradation mechanisms and different material requirements.

This discovery challenges existing battery design strategies. It highlights that manganese can cause mechanical damage in single-crystal cathodes, while cobalt surprisingly improves their durability and lifespan. This insight is vital for developing safer and more robust battery technologies for widespread adoption.