Convection Can Enhance the Capacitive Charging of Porous Electrodes - Supplementary Material

This repository contains the raw data, numerical model, and other supporting material for the following publication: A. D. Ratschow, A. J. Wagner, M. Janssen, and S. Hardt, Convection Can Enhance the Capacitive Charging of Porous Electrodes, arXiv:2410.12653. DOI: https://doi.org/10.48550/arXiv.2410.12653 The published version of the work in the Proceedings of the National Academy of Sciences of the United States of America is linked in the aforementioned arXiv publication. The raw data for the published results are kept in the ''data published'' folder and are ordered by figure. The computational finite-element models (COMSOL Multiphysics .mph format) for the simulation of nanopore charging and ICEO are stored in the ''numerical models'' folder. These models do not include any results, but the full setup and the numerical grid, and can be used to recalculate all results. In the model of nanopore charging, the parameters r_p_factor, L_p_factor and zeta0_factor must be adapted to simulate a specific parameter combination. The MATLAB scripts used to evaluate the analytical model derived in the paper are saved in the ''analytical model'' folder.