A New Type of Reference Electrode for Three-Electrode Setups: Choice of Material and Geometry

电极 参比电极 锂(药物) 材料科学 介电谱 辅助电极 电化学 分析化学(期刊) 电阻抗 化学 电解质 电气工程 工程类 色谱法 医学 内分泌学 物理化学
作者
Janina Costard,Moses Ender,Jörg Illig,Michael Weiß,Ellen Ivers‐Tiffée
出处
期刊:Meeting abstracts [Institute of Physics]
卷期号:MA2015-01 (2): 464-464
标识
DOI:10.1149/ma2015-01/2/464
摘要

Electrochemical Impedance Spectroscopy (EIS) is highly supportive for analyzing electrode processes in lithium-ion cells. Commonly, a three-electrode setup is used, with a lithium metal counter electrode and/or a lithium metal point-like reference electrode. But its usability is restricted, as lithium metal as a counter electrode often dominates the impedance response, and in general, causes a stochastic component in the EIS data. Furthermore, a point-like lithium metal reference electrode may cause errors such as quantitative factors, cross contaminations and inductive artifacts, as shown by experiment and FEM-simulation [1]. Therefore, material choice and geometric arrangement of a reference electrode seems crucial for obtaining reliable, reproducible and long-term stable measurements. Li 4 Ti 5 O 12 (LTO) was already proposed in literature as a most promising candidate, showing a stable potential plateau at 1.55 V versus lithium, because of a two-phase equilibrium [2]. This study compares LTO versus lithium metal and examines various geometries for reference electrodes by EIS measurements and FEM-simulations. Our results recommend a reference electrode in a mesh-type design, centered between two separators, as most reliable in terms of symmetry. Furthermore, an aluminum mesh slurry coated by fine LTO particles delivered a stable potential over more than hundred hours, as proven by potential measurements. Finally, the suitability of this new type of reference electrode is validated for electrochemical impedance spectroscopy and C-rate tests. References [1] M. Ender, A. Weber, E. Ivers-Tiffée, Journal of the Electrochemical Society, 159 (2012), A128-A136 [2] F. La Mantia, C.D. Wessells, H.D. Deshazer, Y. Cui, Electrochemistry Communication, 31 (2013), 141-144

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