May 20, 2013

It's really thrilling to see the kinds of things made by these young kids in these science competitions. And this young lady came up with something with immediate practical applications:

An 18-year-old science student has made an astonishing breakthrough that will enable mobile phones and other batteries to be charged within seconds rather than the hours it takes today’s devices to power back up.

Saratoga, Calif. resident Eesha Khare made the breakthrough by creating a small supercapacitor that can fit inside a cell phone battery and enable ultra-fast electricity transfer and storage, delivering a full charge in 20-30 seconds instead of several hours.

The nano-tech device Khare created can supposedly withstand up to 100,000 charges, a 100-fold increase over current technology, and it’s flexible enough to be used in clothing or displays on any non-flat surface.

It could also one day be used in car batteries and charging stations not unlike those used by the Tesla Model S, which includes “supercharger” technology that promises to charge vehicles in 30 minutes or less.

“I’m in a daze,” Khare told CBS San Francisco after being honored among the three finalists at the International Science and Engineering Fair in Phoenix over the weekend. “I can’t believe this happened.”

Over 1,600 finalists from around the world competed in the science fair for a $75,000 scholarship grand prize awarded by Intel. Runners-up received $50,000 scholarships.

Can you help us out?

For nearly 20 years we have been exposing Washington lies and untangling media deceit, but now Facebook is drowning us in an ocean of right wing lies. Please give a one-time or recurring donation, or buy a year's subscription for an ad-free experience. Thank you.

Discussion

We welcome relevant, respectful comments. Any comments that are sexist or in any other way deemed hateful by our staff will be deleted and constitute grounds for a ban from posting on the site. Please refer to our Terms of Service for information on our posting policy.
Mastodon