Relation between surface properties, pore structure and first-cycle charge loss of graphite as negative electrode in lithium-ion batteries

Felix Joho; Beat Rykart; Andreas Blome

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Relation between surface properties, pore structure and first-cycle charge loss of graphite as negative electrode in lithium-ion batteries

机译：锂离子电池中作为负极的石墨的表面性质，孔结构与第一周期电荷损失之间的关系

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Cycling of graphite in lithium-ion batteries is reversible except for the first-cycle, where some charge is "lost" due to irreversible side reactions. The irreversible charge loss of different TIMREX graphites was found to be a linear function, both of their specific BET surface areas and of the double-layer capacitance of electrodes manufactured from these graphites. Nitrogen-absorption measurements and differential-porosity calculations indicate that the pore structure of the graphite particles mainly consists of mesopores (2-50 nm). The surface area of these mesopores is part of the electroactive surface area determined by impedance spectroscopy, and contributes to the irreversible capacity of the graphite negative electrode in the first-cycle.

机译：锂离子电池中石墨的循环是可逆的，但第一循环除外，在第一循环中，由于不可逆的副反应而使一些电荷“丢失”。发现不同的TIMREX石墨的不可逆电荷损失是线性函数，它们的比BET表面积和由这些石墨制造的电极的双层电容均如此。氮吸收测量和微分孔隙度计算表明，石墨颗粒的孔结构主要由中孔（2-50 nm）组成。这些中孔的表面积是通过阻抗光谱法确定的电活性表面积的一部分，并且有助于石墨负电极在第一循环中的不可逆容量。

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来源
《Journal of power sources》 |2001年第2001期|p.78-82|共5页
作者
Felix Joho; Beat Rykart; Andreas Blome;
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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类能源与动力工程;
关键词
Lithium intercalation; Graphite; Irreversible capacity; BET surface area;

机译：锂插层;石墨;不可逆容量;BET表面积;

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1. Electropolymerization Triggered in Situ Surface Modification of Electrode Interphases: Alleviating First-Cycle Lithium Loss in Silicon Anode Lithium-Ion Batteries [J] . Anothumakkool Bihag, Holtstiege Florian, Wiemers-Meyer Simon, ACS Sustainable Chemistry & Engineering . 2020,第34期

机译：电极互连原位表面改性的电聚合：在硅阳极锂离子电池中减轻了第一循环锂损失
2. Correlations between surface properties of graphite and the first cycle specific charge loss in lithium-ion batteries [J] . S.H.Ng, C.Vix-Guterl, Ph.Bernardo Carbon: An International Journal Sponsored by the American Carbon Society . 2009,第3期

机译：锂离子电池中石墨的表面性质与第一循环比电荷损失之间的关系
3. Electrochemical Characteristics of the Negative Electrode in Lithium-Ion Batteries: Effect of Structure and Surface Properties of the Carbon Material [J] . V. S. Dubasova, A. S. Fialkov, L. S. Kanevskii, Russian journal of electrochemistry . 2004,第4期

机译：锂离子电池负极的电化学特性：碳材料的结构和表面性能的影响
4. Effects of Co-solvents on Surface Film Formation on a Graphite Negative Electrode in Lithium-Ion Batteries [C] . Soon-Ki Jeong, Yasutoshi Iriyama, Takeshi Abe, The Meeting of the Electrochemical Society . 2002

机译：共溶剂对锂离子电池石墨负电极表面膜形成的影响
5. Utilization of Bio-Renewable Lignin in Building High Capacity, Durable, and Low-Cost Silicon-Based Negative Electrodes for Lithium-Ion Batteries [D] . Chen, Tao. 2018

机译：生物可再生木质素在构建高容量，耐用且低成本的锂离子电池用硅负极中的应用
6. Design-Considerations regarding Silicon/Graphite and Tin/Graphite Composite Electrodes for Lithium-Ion Batteries [O] . Manuel Otero, Christopher Heim, Ezequiel P. M. Leiva, -1

机译：有关锂离子电池的硅/石墨和锡/石墨复合电极的设计考虑
7. SPM Analysis of Surface Film Formation on Graphite Negative Electrodes in Lithium-Ion Batteries [O] . Zempachi OGUMI, Soon-Ki JEONG 2003

机译：锂离子电池石墨负电极表面膜形成的SPM分析

Relation between surface properties, pore structure and first-cycle charge loss of graphite as negative electrode in lithium-ion batteries

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