Teen’s invention could charge your phone in 20 seconds
Watch the video – think of all the rechargeable batteries that could benefit from this technology. Electric cars, imaging not having to plug in for 8 hours to charge your car on a level 2 charger, but using this supercapacitor enhanced batteries, how fast could car batteries charge? Is it like a level 3 charge? Or is this different?
Waiting hours for a cellphone to charge may become a thing of the past, thanks to an 18-year-old high-school student’s invention. She won a $50,000 prize Friday at an international science fair for creating an energy storage device that can be fully juiced in 20 to 30 seconds.
The fast-charging device is a so-called supercapacitor, a gizmo that can pack a lot of energy into a tiny space, charges quickly and holds its charge for a long time.
What’s more, it can last for 10,000 charge-recharge cycles, compared with 1,000 cycles for conventional rechargeable batteries, according to Eesha Khare of Saratoga, Calif.
“My cellphone battery always dies,” she told NBC News when asked what inspired her to work on the energy-storage technology. Supercapacitors also allowed her to focus on her interest in nanochemistry — “really working at the nanoscale to make significant advances in many different fields.”
To date, she has used the supercapacitor to power a light-emitting diode, or LED. The invention’s future is even brighter. She sees it fitting inside cellphones and the other portable electronic devices that are proliferating in today’s world, freeing people and their gadgets for a longer time from reliance on electrical outlets.
“It is also flexible, so it can be used in rollup displays and clothing and fabric,” Khare added. “It has a lot of different applications and advantages over batteries in that sense.”
Khare’s invention won her the Intel Foundation Young Scientist Award at the Intel International Science and Engineering Fair, conducted this week in Phoenix, Ariz. For more information about the event and other prize winners, check out our earlier coverage.