Splitting current at pore junctions can slow ion flow, with the split location and pore arrangement influencing the charging speed.Researchers have gathered valuable insights into the movement of ions in a network of nanopores, which will help improve supercapacitors’ energy storage capability.
One way scientists can increase a substance’s capacitance is by making its surface nanoporous. A mere ten grams of a nanoporous material can achieve a surface area of up to 20,000 square meters . As a result, it was possible to analyze pore networks that had never been reached before. Using the updated Kirchhoff’s laws, the team simulated and predicted ion flow through extensive networks of nanopores at a large scale, leading to a better understanding of how ions move in complex systems, explained Gupta.
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