Researchers have gathered valuable insights into the movement of ions in a network of nanopores, which will help improve supercapacitors’ energy storage capability.
The study, led by a University of Colorado Boulder team, presents a model designed to predict electrolyte transport within intricate networks of slender pores.
“These findings hold potential for improving supercapacitor design and enabling 3D-printed microscale electrodes for wearable energy storage and supercapacitors in Internet-of-Things applications,” said the study.
The details of the team’s research were published in the journal Proceedings of the National Academy of Sciences.
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