探索钾离子电池电极用炭黑材料的性质-行为关系

Sabrina Trano, D. Versaci, M. Castellino, Marco Fontana, L. Fagiolari, Carlotta Francia, Federico Bella
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引用次数: 0

摘要

导电添加剂是工作电极的重要组成部分:无论是极少量使用还是构成导电基体,其电化学反应都不容忽视。在新兴的钾离子电池系统领域,商用扩散炭黑(即超级 P、超级 C65 和超级 C45)仍然缺乏深入的电化学特性分析,而钾离子电池系统正朝着大规模固定存储应用的方向发展。因此,这项工作旨在提供强有力的工具,以判别它们在此类二次电池中的积极作用。首先,讨论了石墨烯的伪非晶结构对钾离子存储机制的影响,钾离子主要倾向于吸附在石墨烯表面,而不是插层在石墨烯层内,从而导致伪电容响应。然后,考虑了邓恩和特拉萨蒂方法,以确定发生表面主导反应的潜在范围,同时量化它们的重量。这一观察结果肯定与表面性质和暴露的官能团有关;因此,利用 X 射线光电子能谱将电化学特征与炭黑物种的原始表面和循环表面联系起来。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Exploring nature-behaviour relationship of carbon black materials for potassium-ion battery electrodes
An essential component of a working electrode is the conductive additive: whether it is used in very low amounts or constitutes the conductive matrix, its electrochemical response is not negligible. Commercially diffused carbon black species (i.e., Super P, Super C65, and Super C45) still lack an in-depth electrochemical characterisation in the emerging field of potassium-ion battery systems, which are on the way towards large-scale stationary storage application. Thus, this work aims to provide strong tools to discriminate their active role in such secondary cells. First, the effect of their pseudo-amorphous structure on the storage mechanism of potassium ions, which tend mainly to adsorb on their surface rather than intercalate within graphene layers, leading to a pseudocapacitive response, is discussed. Then, Dunn’s and Trasatti’s methods are considered to identify the potential ranges in which surface-dominated reactions occur, quantifying their weight at the same time. This observation is surely linked with surface properties and exposed functional groups; thus, X-ray photoelectron spectroscopy is exploited to correlate electrochemical features with both pristine and cycled surfaces of the carbon black species.
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