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  • 1
    Article
    Article
    In-situ electrogravimetric detection of the cathodic process during the galvanic coupling between lithium and copper (2023)
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    UID:
    gbv_1870871383
    ISSN: 0013-4686
    Content: With the development of the energy system transformation the quality and efficiency of the rechargeable batteries, particularly the Li ion technology, gain major importance. In spite of the enormous advances, along with many other technological challenges corrosion of the metallic battery parts is often a difficult obstacle for producers and researchers. Li-metal batteries and especially the “anode-free” battery concept could significantly increase the energy density. However, contact corrosion of the Li anode, can occur in this cell configuration since there is a high probability of a three-phase contact between Li-metal, current collector and electrolyte, a condition triggering an intensive Li corrosion. In this work, a new in-situ analytical methodology based on combining electrochemical (ZRA) and microgravimetric (QCM) techniques is proposed for studying the galvanic corrosion. The applicability of this approach is explored in three different electrolyte compositions. Beside the analysis of the conventional electrochemical parameters an in-situ gravimetric detection of the deposited electrolyte decomposition products on the cathode surface is demonstrated. Adsorbed polymer layer on the Cu surface is applied for cathodic inhibition of the galvanic corrosion process, which is studied by means of the novel ZRA-QCM approach.
    In: Electrochimica acta, Kidlington : Elsevier Science, 1959, 463(2023) vom: 20. Sept., Artikel-ID 142853, 0013-4686
    In: volume:463
    In: year:2023
    In: day:20
    In: month:09
    In: elocationid:142853
    Language: English
    DOI: 10.1016/j.electacta.2023.142853
    Author information: Krischok, Stefan 1972-
    Author information: Ivanov, Svetlozar
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  • 2
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    In-situ electrogravimetric detection of the cathodic process during the galvanic coupling between lithium and copper (2023)
    Show associated volumes
    Details
    UID:
    gbv_1870871065
    ISSN: 1873-3859
    Content: With the development of the energy system transformation the quality and efficiency of the rechargeable batteries, particularly the Li ion technology, gain major importance. In spite of the enormous advances, along with many other technological challenges corrosion of the metallic battery parts is often a difficult obstacle for producers and researchers. Li-metal batteries and especially the “anode-free” battery concept could significantly increase the energy density. However, contact corrosion of the Li anode, can occur in this cell configuration since there is a high probability of a three-phase contact between Li-metal, current collector and electrolyte, a condition triggering an intensive Li corrosion. In this work, a new in-situ analytical methodology based on combining electrochemical (ZRA) and microgravimetric (QCM) techniques is proposed for studying the galvanic corrosion. The applicability of this approach is explored in three different electrolyte compositions. Beside the analysis of the conventional electrochemical parameters an in-situ gravimetric detection of the deposited electrolyte decomposition products on the cathode surface is demonstrated. Adsorbed polymer layer on the Cu surface is applied for cathodic inhibition of the galvanic corrosion process, which is studied by means of the novel ZRA-QCM approach.
    In: Electrochimica acta, New York, NY [u.a.] : Elsevier, 1959, 463(2023) vom: 20. Sept., Artikel-ID 142853, 1873-3859
    In: volume:463
    In: year:2023
    In: day:20
    In: month:09
    In: elocationid:142853
    Language: English
    DOI: 10.1016/j.electacta.2023.142853
    URL: Volltext  (lizenzpflichtig)
    Author information: Krischok, Stefan 1972-
    Author information: Ivanov, Svetlozar
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  • 3
    Article
    Article
    Taguchi method in experimental procedures focused on corrosion process of positive current collector in lithium-ion batteries (2020)
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    UID:
    gbv_1729859747
    ISSN: 0013-4686
    Content: Planning the design and discussing the results are routine tasks carried out daily by researchers all over the world. This study is focused on making these stages of research time- and cost-efficient without affecting the reliability of the data. Following the principles of the Taguchi method brings such a result. This approach ensures the quality of research by optimisation of the experimental procedure. In the presented work, the Taguchi method solves an exemplary research problem of the corrosion process of aluminium current collector in lithium-ion batteries. Operating factors selected for the optimisation include temperature (25, 35, 45°C), the volume ratio of ethylene carbonate to diethyl carbonate in the solvent (1:1, 1:2, 1:4), and type of lithium salt (LiPF6, LiTFSI, LiBOB). Using three operating factors with three levels of variability requires data assembly in an orthogonal array L9 with nine experimental runs in total. In this study, the Taguchi approach is validated by performing a full-factorial procedure of twenty-seven individual experiments. The response of tested systems is analysed by cyclic voltammetry and electrochemical impedance spectroscopy, which enables the evaluation of corrosion parameters in each experimental run. The assessed parameters indicate the intensity of the aluminium corrosion depending on the operating conditions. These conditions cause unwanted variance, which accelerates corrosion and lowers the life expectancy of lithium-ion batteries. The Taguchi signal-to-noise-ratio analysis reveals that the most significant variation is caused by the lithium salt in the electrolyte (S/N LiBOB ≥ LiPF6 〉 LiTFSI). Temperature and alkyl carbonates play a secondary role. The Taguchi prediction method is also consistent with the full-factorial approach, which warrants reliability.
    In: Electrochimica acta, Kidlington : Elsevier Science, 1959, Volume 360 (2020), 137011, 0013-4686
    In: volume:360
    In: year:2020
    In: day:10
    In: month:11
    In: pages:137011
    Language: English
    DOI: 10.1016/j.electacta.2020.137011
    Author information: Ivanov, Svetlozar
    Author information: Bund, Andreas 1969-
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  • 4
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    Online Resource
    Corrosion of aluminium current collector in lithium-ion batteries: a review (2021)
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    UID:
    gbv_1773848909
    ISSN: 2352-152X
    Content: Calendar and cycle ageing affects the performance of the lithium-ion batteries from the moment they are manufactured. An important process that occurs as a part of the ageing is corrosion of the current collectors, especially prominent in the case of the aluminium substrate for the positive electrode. Generally, aluminium resists corrosion due to the formation of a non-permeable film of native aluminium oxide. Nevertheless, at certain electrochemical conditions corrosion affects the interface of the current collector. As a consequence of corrosion, the cathode materials lose electrical and mechanical contact with the current collector, leading to capacity and power fading. Therefore, a deeper understanding of this process and effective corrosion inhibition are necessary to prevent the deterioration of the battery performance. This review provides an updated critical overview of the mechanisms of aluminium corrosion, methodologies for analysing this phenomenon, and approaches for its effective mitigation. As the influence of multiple factors on the corrosion process has a central impact, the review discusses how they specifically affect the undergoing processes. Therefore, appropriate examples of important factors like electrolyte composition, thermal conditions and electrochemical parameters are presented to explain the specific mechanism of aluminium corrosion. Since corrosion inhibition is an important technological issue with a tremendous economic impact the review summarises how to achieve this by adjusting the electrochemical system and enhancing the knowledge on the safe operation of the positive electrode.
    In: Journal of energy storage, Amsterdam [u.a.] : Elsevier, 2015, 43(2021) vom: Nov., Artikel-ID 103226, 2352-152X
    In: volume:43
    In: year:2021
    In: month:11
    In: elocationid:103226
    Language: English
    DOI: 10.1016/j.est.2021.103226
    URL: Volltext  (lizenzpflichtig)
    Author information: Ivanov, Svetlozar
    Author information: Bund, Andreas 1969-
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