蔗糖对厚型无粘结剂氧化钛锂离子电池阳极碳涂层处理的影响

IF 2.9 Q2 ELECTROCHEMISTRY
Chen Cai, Patrick McCormack, Ziyang Nie, Gary M. Koenig
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引用次数: 2

摘要

锂离子电池在提供能量存储解决方案方面越来越重要。在提高电池能量密度的过程中,除了研究新材料外,优化电极结构也至关重要。无粘结剂(BF)电极包括只含有电池电活性材料的多孔颗粒。对于非常厚和能量密集的电极,相对于复合方法,这些电极在机械稳定性和减轻离子传输限制方面具有优势。然而,导电添加剂的缺乏往往限制了BF电池电极的合适候选材料。从重量和体积容量的角度来看,TiNb2O7 (TNO)是一种很有前途的BF电极材料,但相纯TNO的电子导电性相对较低。本文采用蔗糖前驱体包覆TNO材料的方法,将TNO材料加工成BF电极。蔗糖作为在电极中产生碳的来源,其中碳涂层导致倍率能力,放电电压和循环寿命的增加。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Impact of carbon coating processing using sucrose for thick binder-free titanium niobium oxide lithium-ion battery anode
Lithium-ion batteries are increasingly important for providing energy storage solutions. In the drive to improve the energy density at the cell level, optimizing the electrode architecture is crucial in addition to researching new materials. Binder-free (BF) electrodes include porous pellets only containing battery electroactive materials. These electrodes can provide advantages with regard to mechanical stability and alleviated ion transport limitations relative to composite approaches for very thick and energy-dense electrodes. However, the absence of conductive additives often limits suitable material candidates for BF battery electrodes. TiNb2O7 (TNO) is a promising BF electrode material from a gravimetric and volumetric capacity standpoint, but phase pure TNO has relatively low electronic conductivity. Herein, a sucrose precursor coating method for TNO materials was implemented to process the TNO materials into BF electrodes. The sucrose served as a source to generate carbon in the electrodes, where the carbon coating resulted in an increase in rate capability, discharge voltage, and cycle life.
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来源期刊
CiteScore
3.60
自引率
27.30%
发文量
90
审稿时长
6 weeks
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