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Main Authors: Campillo-Robles, Jose Miguel, Artetxe, Xabier, Sánchez, Karmele del Teso
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2501.08436
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author Campillo-Robles, Jose Miguel
Artetxe, Xabier
Sánchez, Karmele del Teso
author_facet Campillo-Robles, Jose Miguel
Artetxe, Xabier
Sánchez, Karmele del Teso
contents The basic principle for achieving high-power capability on an electrochemical energy storage cell is minimizing the overall resistance. The resistance due to current collecting systems has not received sufficient attention in the past, presumably because it was not considered of significance for low-power batteries and supercapacitors. However, the necessity of high-power cells has reduced other sources of the inner resistance, and the current collector potential drop has become more important. Moreover, the miniaturization of energy storage devices could increase the ohmic loses in current collectors. In this work, we have developed an electrical model to assess the effect of the current collector thickness on the maximum potential drop. We have found that the thickness of current collectors is a critical parameter that can increase the maximum potential drop drastically. Indeed, the maximum potential drop of current collectors remains almost constant for thicknesses greater than 500 lm, but below this value, there is an inverse relationship between the maximum potential drop and the thickness. We have also analyzed the effect of the material and tab position in the maximum potential drop.
format Preprint
id arxiv_https___arxiv_org_abs_2501_08436
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Effect of thickness on the maximum potential drop of current collectors
Campillo-Robles, Jose Miguel
Artetxe, Xabier
Sánchez, Karmele del Teso
Applied Physics
The basic principle for achieving high-power capability on an electrochemical energy storage cell is minimizing the overall resistance. The resistance due to current collecting systems has not received sufficient attention in the past, presumably because it was not considered of significance for low-power batteries and supercapacitors. However, the necessity of high-power cells has reduced other sources of the inner resistance, and the current collector potential drop has become more important. Moreover, the miniaturization of energy storage devices could increase the ohmic loses in current collectors. In this work, we have developed an electrical model to assess the effect of the current collector thickness on the maximum potential drop. We have found that the thickness of current collectors is a critical parameter that can increase the maximum potential drop drastically. Indeed, the maximum potential drop of current collectors remains almost constant for thicknesses greater than 500 lm, but below this value, there is an inverse relationship between the maximum potential drop and the thickness. We have also analyzed the effect of the material and tab position in the maximum potential drop.
title Effect of thickness on the maximum potential drop of current collectors
topic Applied Physics
url https://arxiv.org/abs/2501.08436