用于水基锰离子电池的熔环芳香族羰基电极中的π-电子辅助电荷存储

IF 19.3 1区 材料科学 Q1 CHEMISTRY, PHYSICAL
Hyungjin Lee, Amey Nimkar, Netanel Shpigel*, Daniel Sharon, Seung-Tae Hong, Doron Aurbach* and Munseok S. Chae*, 
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引用次数: 0

摘要

由于锰的丰富性和环保性,可充电锰电池有望用于大规模能源储存。一个关键的挑战是开发能够可逆地插入高比容锰离子的阴极材料。在这里,我们证明了过烯烃-3,4,9,10-四羧酸二酐电极能在 3 MnCl2 水电解质溶液中高效、可逆地插入 Mn2+ 离子。利用羰基和 π 电子构型,此类化合物可作为稳健的氧化还原中心,促进与 Mn2+ 等二价离子的可逆相互作用。通过涉及电化学、元素分析、光谱学和结构分析的综合研究,我们对这些系统进行了探索,发现它们是很有前途的锰电池阳极材料。这些分子展示了出色的锰存储能力,在电流密度为 100 mA g-1 时,可达到约 185 mAh g-1 的可逆容量,对 Mn/Mn2+ 的平均电压保持在约 0.8 V,同时还表现出显著的容量保持能力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

π-Electron-Assisted Charge Storage in Fused-Ring Aromatic Carbonyl Electrodes for Aqueous Manganese-Ion Batteries

π-Electron-Assisted Charge Storage in Fused-Ring Aromatic Carbonyl Electrodes for Aqueous Manganese-Ion Batteries

Rechargeable manganese batteries hold promise for large-scale energy storage due to the abundance and eco-friendly nature of manganese. A key challenge is developing cathode materials capable of reversibly inserting Mn ions with a high specific capacity. Here, we demonstrate that perylene-3,4,9,10-tetracarboxylic dianhydride electrodes efficiently and reversibly insert Mn2+ ions in 3 M MnCl2 aqueous electrolyte solutions. Leveraging the carbonyl groups and the π-electron configuration, such compounds can serve as robust redox centers, facilitating reversible interactions with divalent ions such as Mn2+. Through comprehensive studies involving electrochemistry, elemental analyses, spectroscopy, and structural analysis, we explored these systems and found them as promising anode materials for Mn batteries. Demonstrating excellent Mn storage capabilities, such molecules could attain a reversible capacity of approximately >185 mAh g–1 at a current density of 100 mA g–1, maintaining an average voltage of approximately 0.8 V vs Mn/Mn2+, while exhibiting notable capacity retention.

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来源期刊
ACS Energy Letters
ACS Energy Letters Energy-Renewable Energy, Sustainability and the Environment
CiteScore
31.20
自引率
5.00%
发文量
469
审稿时长
1 months
期刊介绍: ACS Energy Letters is a monthly journal that publishes papers reporting new scientific advances in energy research. The journal focuses on topics that are of interest to scientists working in the fundamental and applied sciences. Rapid publication is a central criterion for acceptance, and the journal is known for its quick publication times, with an average of 4-6 weeks from submission to web publication in As Soon As Publishable format. ACS Energy Letters is ranked as the number one journal in the Web of Science Electrochemistry category. It also ranks within the top 10 journals for Physical Chemistry, Energy & Fuels, and Nanoscience & Nanotechnology. The journal offers several types of articles, including Letters, Energy Express, Perspectives, Reviews, Editorials, Viewpoints and Energy Focus. Additionally, authors have the option to submit videos that summarize or support the information presented in a Perspective or Review article, which can be highlighted on the journal's website. ACS Energy Letters is abstracted and indexed in Chemical Abstracts Service/SciFinder, EBSCO-summon, PubMed, Web of Science, Scopus and Portico.
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