Probing Electrochemical Strain Generation in Vanadium Oxide Cathodes during Cycling of Aqueous Zinc-Ion Batteries via Imaging Technique.

IF 5.7

Chemical & Biomedical Imaging Pub Date : 2025-03-16 eCollection Date: 2025-06-23 DOI:10.1021/cbmi.5c00003

Bret A Marckx, Hunter Maclennan, Ömer Özgür Capraz

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引用次数: 0

Abstract

Aqueous batteries have received a great deal of attention for grid-scale energy storage applications but suffer from low-capacity retention and utilization. A lack of understanding of chemomechanical instabilities and charge storage mechanisms in cathodes limits the development of advanced aqueous batteries. To shed light on these instabilities, operando techniques are necessary to probe the complex interplay between electrochemistry and mechanics during cycling. Here, we report an operando technique to probe electrochemical strains in cathodes in aqueous electrolytes during battery cycling via optical imaging and digital image correlation. Operando mechanical measurements indicate that the cathode undergoes positive strain generation during discharge and negative generation during charge. Strain derivatives reveal a close correlation between electrochemical and mechanical behaviors, highlighting the connection between electrochemistry and mechanics. This operando imaging technique is broadly applicable and paves the way for a deeper understanding of deformation mechanisms in aqueous, multivalent ion battery materials.

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利用成像技术探测锌离子电池循环过程中氧化钒阴极产生的电化学应变。

水溶液电池在电网规模的储能应用中受到了广泛的关注，但存在容量保持和利用率低的问题。缺乏对阴极化学力学不稳定性和电荷储存机制的理解限制了先进水电池的发展。为了阐明这些不稳定性，有必要利用operando技术来探索循环过程中电化学和力学之间复杂的相互作用。在这里，我们报告了一种operando技术，通过光学成像和数字图像相关来探测电池循环过程中水溶液电解质阴极的电化学应变。Operando力学测量表明，阴极在放电时产生正应变，在充电时产生负应变。应变导数揭示了电化学和力学行为之间的密切联系，突出了电化学和力学之间的联系。这种operando成像技术广泛适用，为更深入地理解水、多价离子电池材料的变形机制铺平了道路。

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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来源期刊

Chemical & Biomedical Imaging 化学与生物成像-

CiteScore

1.00

自引率

0.00%

发文量

期刊介绍： Chemical & Biomedical Imaging is a peer-reviewed open access journal devoted to the publication of cutting-edge research papers on all aspects of chemical and biomedical imaging. This interdisciplinary field sits at the intersection of chemistry physics biology materials engineering and medicine. The journal aims to bring together researchers from across these disciplines to address cutting-edge challenges of fundamental research and applications.Topics of particular interest include but are not limited to:Imaging of processes and reactionsImaging of nanoscale microscale and mesoscale materialsImaging of biological interactions and interfacesSingle-molecule and cellular imagingWhole-organ and whole-body imagingMolecular imaging probes and contrast agentsBioluminescence chemiluminescence and electrochemiluminescence imagingNanophotonics and imagingChemical tools for new imaging modalitiesChemical and imaging techniques in diagnosis and therapyImaging-guided drug deliveryAI and machine learning assisted imaging