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On the Dynamics ofCharging inNanoporousCarbon-BasedSupercapacitors Clarisse PéanCéline MerletBenjamin Rotenberg2014 год

On the Dynamics of Charging in Nanoporous Carbon-Based Supercapacitors
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Аннотация: Supercapacitors are electricity storage systems with high power performances. Their short charge/discharge times are due to fast adsorption/desorption rates for the ions of the electrolyte on the electrode surface. Nanoporous carbon electrodes, which give larger capacitances than simpler geometries, might be expected to show poorer power performances because of the longer times taken by the ions to access the electrode interior. Experiments do not show such trends, however, and this remains to be explained at the molecular scale. Here we show that carbide-derived carbons exhibit heterogeneous and fast charging dynamics. We perform molecular dynamics simulations, with realistically modeled nanoporous electrodes and an ionic liquid electrolyte, in which the system, originally at equilibrium in the uncharged state, is suddenly perturbed by the application of an electric potential difference between the electrodes. The electrodes respond by charging progressively from the interface to the bulk as ions are exchanged between the nanopores and the electrolyte region. The simulation results are then injected into an equivalent circuit model, which allows us to calculate charging times for macroscopic-scale devices.
Год издания: 2014
Авторы: Clarisse Péan, Céline Merlet, Benjamin Rotenberg, Paul A. Madden, Pierre‐Louis Taberna, Barbara Daffos, Mathieu Salanne, Patrice Simon
Издательство: American Chemical Society
Источник: ACS Nano
Ключевые слова: Supercapacitor Materials and Fabrication, Electrocatalysts for Energy Conversion, Ionic liquids properties and applications
Другие ссылки: ACS Nano (HTML)
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