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In this type of battery, called nonaqueous redox flow, energy is stored in negatively and positively charged solutions inside large tanks.
The molecular makeup of the energized solutions in the tanks plays a major role in how much energy the battery is able to produce, and this research focused on designing the ideal molecule to dissolve in the positively charged tank. To maximize efficiency, the researchers had to structure the molecule to hold as much energy as possible while also being stable enough to limit superfluous reactions.
Stability - Molecules - Battery - Lot - Energy
"We want the stability of the molecules to be high so the battery doesn't break down prematurely, but we also want it to be able to hold a lot of energy. The two are at odds," said Jingjing Zhang, a postdoc involved in the research.
The molecule's reversibility, or its ability to be repeatedly charged and discharged, is the very property that allows flow batteries to function. During charging, molecules stored in the positively charged tank shed electrons through a process called oxidation. A problem arises when these now unstable, positively charged molecules begin to react with their surroundings, sapping the charge that would otherwise be stored in the tank and used for power.
Electron - Molecule - Tendency - Electron - Pair
"When it loses an electron, the molecule has a natural tendency to find another electron for a complete pair,...
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