利用operando x射线计算机断层扫描分析在充放电试验中检测镍锌电池的电化学变化

IF 1.5 4区物理与天体物理 Q3 SPECTROSCOPY

X-Ray Spectrometry Pub Date : 2023-09-07 DOI:10.1002/xrs.3400

Daichi Kohmoto, K. Miyazaki, Masahito Morita, K. Fukuda, Takeshi Abe

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引用次数: 0

摘要

这项研究开发了一种在充放电测试过程中实时检测和分析电池截面退化的方法。该方法基于时间序列分析，使用x射线计算机断层扫描、电池体积的三维重建和无监督机器学习。所开发的方法不仅通过传统的电压-容量图检测电池的电化学变化，还可以检测物理变化，如电池部件的退化，而这些物理变化是无法通过直接从三维重建体积的切片图像中进行人体检查来发现的。此外，电池内部这些变化的特征可以通过使用持久同源性（一种数学机制）在0度和1度进行精确分析来捕捉。这表明，我们的方法可以捕捉电池内连续和离散的结构变化（例如，活性材料和化合物在电解质中随机沉淀的连续变形）。作为一种副产品，在充放电测试期间，可以使用特定循环中的方法检测在电池阳极附近实施的排气系统的启动。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Detecting electrochemical changes in a nickel–zinc battery by operando x‐ray computed‐tomography analysis during charge–discharge tests

This study developed a method to detect and analyze deterioration in sections of a battery during charge–discharge tests in real time. This method is based on a time‐series analysis using x‐ray computed tomography, three‐dimensional reconstruction of the battery volume, and unsupervised machine learning. The developed method detects not only electrochemical changes in a battery through the conventional voltage‐capacity diagram but also physical changes such as the deterioration of the parts of a battery that cannot be found via human inspection directly from the sliced images of the three‐dimensional reconstructed volumes. Furthermore, the characteristics of these changes inside a battery can be captured through precise analysis using persistent homology, a mathematical machinery, at degrees 0 and 1. This demonstrates that our method can capture both continuous and discrete structural changes (e.g., a continuous deformation of active materials and compounds that are precipitated randomly in the electrolytes) within a battery. As a by‐product, the start of the venting system implemented near the anode of a battery can be detected using the method from a specific cycle during the charge–discharge tests.

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来源期刊

X-Ray Spectrometry 物理-光谱学

CiteScore

3.10

自引率

8.30%

发文量

审稿时长

6-12 weeks

期刊介绍： X-Ray Spectrometry is devoted to the rapid publication of papers dealing with the theory and application of x-ray spectrometry using electron, x-ray photon, proton, γ and γ-x sources. Covering advances in techniques, methods and equipment, this established journal provides the ideal platform for the discussion of more sophisticated X-ray analytical methods. Both wavelength and energy dispersion systems are covered together with a range of data handling methods, from the most simple to very sophisticated software programs. Papers dealing with the application of x-ray spectrometric methods for structural analysis are also featured as well as applications papers covering a wide range of areas such as environmental analysis and monitoring, art and archaelogical studies, mineralogy, forensics, geology, surface science and materials analysis, biomedical and pharmaceutical applications.