What Happens During Nail Penetration of Solid-state Lithium Battery?

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The nail penetration test of solid state battery is something that anyone interested in the latest technology trends should be interested in. Solid-state batteries have been gaining popularity because they are lighter, safer, and more reliable than traditional lithium-ion batteries that are currently used in most consumer electronics.

Recently, Vnice team conducted a test of a solid-state battery by literally “poking it with acupuncture.” The aim of the experiment was to test the safety and reliability of the newer type of battery.

It was suspected that the acupuncture would produce an electric current that would disrupt the circuit of the battery, causing it to short circuit. However, the experiment showed the opposite. After the needle was inserted into the battery, the voltage of the battery remained stable throughout the course of the experiment. This suggests that the acupuncture did not affect the battery’s performance.

The voltage is 3.47V before the acupuncture experiment

The Voltage is 3.43V after the acupuncture experiment

What’s more, the test showed no smoke, fire or liquid leakage. This indicates that the battery was not damaged at all, proving that the acupuncture did not have any adverse effect on the battery.

The experiment was the first of its kind, and it showcases the potential of solid-state batteries in terms of safety and performance. The findings of the acupuncture test suggest that these batteries can be put through rigorous testing, without having to worry about damage or other safety issues.

The results of the experiment also highlight the potential of the Solid-state battery in the commercial market. As the technology continues to develop, these batteries could become a viable alternative to the traditional Li-Ion batteries. The fact that the needle did not cause any damage to the internal components of the battery, while still remaining stable, is a testament to the reliability of the product.

The experiment consisted of using needles to create small holes in the surface of the battery. The researchers applied varying levels of pressure to the offending area and measured the voltage of the battery during the entire process. After the needle penetrated the battery, the voltage remained unchanged, demonstrating that the battery was able to maintain its performance despite the pressure.