en.Wedoany.com Reported, the latest research from Northeastern University in the United States has found that particles inside batteries move dynamically like meteors during charging and discharging cycles. This movement accelerates battery wear and failure. The study, published in the journal "Science," challenges traditional models and provides a new perspective for designing more durable energy storage systems.

By tracking the behavior of battery materials in real-time, researchers discovered that particles are not static; instead, they frequently move, collide, and reorganize. This dynamic behavior generates mechanical stress, leading to cracks and performance degradation. A researcher stated, "People have always assumed these particles just sit still and degrade slowly, but we found they move quite frequently. Their behavior is more like meteors than static objects."

This research on battery particles explains why batteries degrade faster under high loads and highlights the challenges in improving battery lifespan. Understanding particle movement can help in developing new materials or structures to limit movement or absorb stress, thereby extending battery life.

The dynamic movement of battery particles has significant implications for electric vehicles and grid storage systems. By improving models and testing methods, battery performance can be predicted more accurately, guiding future battery design to reduce internal damage and lower costs.

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