空气等离子体改性石墨电极以提高水氧化还原液流电池的性能

Patricia Bassil, Coumba Fall, Karim Boutamine, Frédéric Favier, S. Le Vot
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引用次数: 0

摘要

石墨毡被广泛用作水氧化还原液流电池(RFB)的多孔碳电极。然而,其固有的疏水性和有限的电化学活性带来了挑战。虽然有关钒化学和其他无机氧化还原活性材料的 RFB 性能与电极特性之间的相关性已经得到了广泛的研究,但有关有机体系的文献仍然很少。在这项研究中,我们采用了空气等离子处理技术,这种技术以其可控性、无溶剂性和处理时间短而著称,可对市售石墨毡进行改性,用于 RFB 应用。通过综合分析,我们确定了等离子处理、物理性质、电化学特性和水性 RFB 电池整体性能之间的相关性。比较评估结果表明,经过处理的石墨毡在 140 mA cm-2 时的容量比原始石墨毡提高了 85%,从而显著提高了电池性能。通过有意使用真实的 RFB 电极并采用最先进的亚铁氰化物正溶液,本研究强调了界面的关键作用,即使是 AORFB 中使用的快速(可逆)氧化还原活性材料也不例外。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Air Plasma Modification of Graphite-Based Electrode for Improved Performance of Aqueous Redox Flow Batteries
Graphite felt is widely utilized as a porous carbon electrode in aqueous redox flow batteries (RFBs). However, its inherent hydrophobic nature and limited electrochemical activity present challenges. While the correlation between RFB performance and electrode properties has been extensively studied for vanadium chemistry and other inorganic redox active materials, it remains scarce in literature for organic systems. In this study, we employ air plasma treatment, known for its controllability, solvent-free nature, and short treatment duration, to modify commercially available graphite felt for RFB applications. A comprehensive analysis is conducted to establish correlations between plasma treatment, physical properties, electrochemical characteristics, and overall cell performance in aqueous RFBs. Comparative evaluation reveals a significant enhancement, with treated graphite felt exhibiting an 85% increase in capacity at 140 mA cm-2 compared to its pristine counterpart. By intentionally utilizing authentic RFB electrodes and employing state-of-the-art ferrocyanide posolyte, this study underscores the crucial role of the interface, even for rapid (reversible) redox-active materials utilized in AORFBs.
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