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Team uses 3D printing to develop zinc-ion hybrid battery with seven times more energy

Storing solar and wind energy to meet the increasing power needs of the electrical grid calls for devices that can deliver power quickly, recharge quickly and last for decades at low cost. A new study led by UCLA has uncovered a technology that could meet all these criteria: a zinc-ion hybrid battery with a 3D-printed electrode that stores more than seven times the charge of similar hybrids.

Energy storage based on zinc instead of lithium would be cheaper and more sustainable because zinc is 100 times more abundant, easier to mine and easier to recycle.

“The future of energy storage won’t be defined by a single technology,” said co-corresponding author Maher El-Kady, an assistant researcher in UCLA College’s chemistry and biochemistry department. “At some point, we will need to look for something to complement the current options for grid-scale energy storage. What we’ve done in this study essentially gives us zinc-ion hybrid devices that can store nearly one order of magnitude higher capacity.”

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