UCLA chemists devise technology that could transform solar energy storage
http://newsroom.ucla.edu/releases/ucla-chemists-devise-technology-that-could-transform-solar-energy-storage[font face=Serif][font size=5]UCLA chemists devise technology that could transform solar energy storage [/font]
Melody Pupols | June 18, 2015
[font size=3]The materials in most of todays residential rooftop solar panels can store energy from the sun for only a few microseconds at a time. A new technology developed by chemists at UCLA is capable of storing solar energy for up to several weeks an advance that could change the way scientists think about designing solar cells.
In photosynthesis, plants that are exposed to sunlight use carefully organized nanoscale structures within their cells to rapidly separate charges pulling electrons away from the positively charged molecule that is left behind, and keeping positive and negative charges separated, Tolbert said. That separation is the key to making the process so efficient.
The UCLA technology arranges the elements more neatly like small bundles of uncooked spaghetti with precisely placed meatballs. Some fullerene meatballs are designed to sit inside the spaghetti bundles, but others are forced to stay on the outside. The fullerenes inside the structure take electrons from the polymers and toss them to the outside fullerene, which can effectively keep the electrons away from the polymer for weeks.
In the new system, the materials self-assemble just by being placed in close proximity.
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