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Main Authors: Li, Jiajie, Ji, Xiang, Zhou, Shenggao, Zhu, Shengfeng
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2511.20969
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author Li, Jiajie
Ji, Xiang
Zhou, Shenggao
Zhu, Shengfeng
author_facet Li, Jiajie
Ji, Xiang
Zhou, Shenggao
Zhu, Shengfeng
contents As widely used electrochemical storage devices, supercapacitors deliver higher power density than batteries, but suffer from significantly lower energy density. In this work, we propose a topology optimization model for electrode structure to maximize energy storage in supercapacitors. The existence of minimizers to the resulting optimal control problem, which is constrained by a modified steady-state Poisson--Nernst--Planck system describing ionic electrodiffusion, has been theoretically established by using the direct method in the calculus of variation. Sensitivity analysis of the topology optimization model is performed to derive variational derivatives and corresponding adjoint equations. A gradient flow formulation discretized by a stabilized semi-implicit scheme is developed to solve the resulting topology optimization problem. Extensive numerical experiments present various porous electrode structures that own large area of electrode-electrolyte interface, demonstrating the effectiveness and robustness of the proposed topology optimization model and corresponding algorithm.
format Preprint
id arxiv_https___arxiv_org_abs_2511_20969
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Maximization of Supercapacitor Storage via Topology Optimization of Electrode Structures
Li, Jiajie
Ji, Xiang
Zhou, Shenggao
Zhu, Shengfeng
Optimization and Control
As widely used electrochemical storage devices, supercapacitors deliver higher power density than batteries, but suffer from significantly lower energy density. In this work, we propose a topology optimization model for electrode structure to maximize energy storage in supercapacitors. The existence of minimizers to the resulting optimal control problem, which is constrained by a modified steady-state Poisson--Nernst--Planck system describing ionic electrodiffusion, has been theoretically established by using the direct method in the calculus of variation. Sensitivity analysis of the topology optimization model is performed to derive variational derivatives and corresponding adjoint equations. A gradient flow formulation discretized by a stabilized semi-implicit scheme is developed to solve the resulting topology optimization problem. Extensive numerical experiments present various porous electrode structures that own large area of electrode-electrolyte interface, demonstrating the effectiveness and robustness of the proposed topology optimization model and corresponding algorithm.
title Maximization of Supercapacitor Storage via Topology Optimization of Electrode Structures
topic Optimization and Control
url https://arxiv.org/abs/2511.20969