Researchers Accidentally Make Batteries Last 400 Times Longer

The gel surrounding the gold nanowires with manganese oxide coating protects from corrosion, allowing the battery to last 400 times more cycles.

Rajen Dutta /University of California Irvine

The gel surrounding the gold nanowires with manganese oxide coating protects from corrosion, allowing the battery to last 400 times more cycles.

Smartphones, tablets, and most other electronics rely on rechargeable batteries, but after a few thousand uses the batteries start to lose their ability to hold a charge. The batteries of today are mainly lithium, and over time that lithium corrodes inside the battery.

Instead of lithium, researchers at UC Irvine have used gold nanowires to store electricity, and have found that their system is able to far outlast traditional lithium battery construction. The Irvine team’s system cycled through 200,000 recharges without significant corrosion or decline.

However, they don’t exactly know why. The original idea of the experiment was to make a solid-state battery: one that uses an electrolyte gel, rather than liquid, to help hold charge. Liquid batteries, like the common lithium variety, are extremely combustible and sensitive to temperature. The Irvine team was experimenting by substituting a much thicker gel.

“We started to cycle the devices, and then realized that they weren’t going to die,” said Reginald Penner, a lead author of the paper. “We don’t understand the mechanism of that yet.”

Although you may have never cracked one open (we hope), most of the batteries in your gadgets contain liquid. Liquid is used in part because its conductivity allows flexible and partial charging and discharging. Finding highly conductive electrolyte gels has proven difficult.

continue http://www.popsci.com/researchers-accidentally-make-batteries-last-400-times-longer

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