Researchers at the University of California to develop a battery that has a durability that is qualified. These batteries can be used continuously, tend to be durable to be able to perform charging (charge) to hundreds of thousands of times.
Reported by Gizmodo, Thursday (21/04/2016), this innovative battery will vary with the type of lithium. Explained that lithium can be decreased and the possibility of failure from time to time.
Over time, this type of lithium makes charging the cells are no longer effective. To overcome this problem, researchers created a new kind of battery.
Researchers wondered if nanowires (nanowires) can help increase battery capacity. Therefore nanowires have a large surface area in a small volume, allowing the battery hold a large amount of power when used as an electrode.
Nonetheless, the battery can be very susceptible to damage caused by the 'dendrites' of lithium. The latest, with the researchers who developed the University of California, allow use itni gold nanowire thin lining that surrounds the 'manganese dioxide' and gel electrolyte resembles Plexiglas.
Within three months of testing, the team found that they could do the charging. This is done to more than 200 thousand times without any damage or deficiency in capacity.
Reported by Gizmodo, Thursday (21/04/2016), this innovative battery will vary with the type of lithium. Explained that lithium can be decreased and the possibility of failure from time to time.
Over time, this type of lithium makes charging the cells are no longer effective. To overcome this problem, researchers created a new kind of battery.
Researchers wondered if nanowires (nanowires) can help increase battery capacity. Therefore nanowires have a large surface area in a small volume, allowing the battery hold a large amount of power when used as an electrode.
Nonetheless, the battery can be very susceptible to damage caused by the 'dendrites' of lithium. The latest, with the researchers who developed the University of California, allow use itni gold nanowire thin lining that surrounds the 'manganese dioxide' and gel electrolyte resembles Plexiglas.
Within three months of testing, the team found that they could do the charging. This is done to more than 200 thousand times without any damage or deficiency in capacity.
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