Optimal design of LiMn2O4 for high-rate applications by means of citric acid aided route and microwave heating

Yurii V. Shmatok, H. Potapenko, S.A. Kirillov
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Abstract

Due to shortening the duration of the process and possibility to obtain crystals of smaller and uniform size, microwave heating is considered an effective and promising tool for the synthesis of LiMn2O4, a valuable cathode material for lithium-ion batteries. However, electrochemical characteristics of LiMn2O4 obtained with its help are almost completely absent and do not allow for drawing a sound conclusion regarding advantages and drawbacks of microwave processing. Here we present a description of the microwave-assisted citric acid aided synthesis, characterization and electrochemical performance of LiMn2O4. The disclosure of detailed working protocols enabling one to manufacture samples tolerant to extremely high currents is the main novelty of this paper. Specifically, our material sustains current loads up to 40 C (5920 mA g-1) and completely recovers after cycling at harsh conditions.
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通过柠檬酸辅助路线和微波加热优化设计用于高速率应用的锰酸锂
由于微波加热缩短了工艺持续时间,并有可能获得尺寸更小、更均匀的晶体,因此被认为是合成锂离子电池阴极材料--锰酸锂的一种有效且前景广阔的工具。然而,在微波帮助下获得的锰酸锂的电化学特性几乎完全不存在,因此无法就微波处理的优点和缺点得出合理的结论。在此,我们介绍了微波辅助柠檬酸法合成锰酸锂的方法、锰酸锂的表征和电化学性能。本文的主要创新点在于披露了详细的工作方案,使人们能够制造出可承受极高电流的样品。具体来说,我们的材料可承受高达 40 C 的电流负载(5920 mA g-1),并在恶劣条件下循环后完全恢复。
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