硬脂酸表面改性对电池级 Li2CO3 粉末流动性和团聚的影响

IF 4.1 2区 材料科学 Q2 ENGINEERING, CHEMICAL Particuology Pub Date : 2024-05-29 DOI:10.1016/j.partic.2024.05.012
Ming Zhou
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引用次数: 0

摘要

本研究探讨了电池级 Li2CO3 粉末的流动和团聚行为以及硬脂酸表面改性的影响。结块程度直接关系到 Li2CO3 及其粉末混合物的均匀性。根据中国有色金属工业国家标准,电池级 Li2CO3 粉末的 D50 等于 3-8 μm,属于微米级超细粉末。因此,随着储存时间的延长,由于比表面积大,粉末颗粒粗糙不规则,会出现严重的团聚现象。未改性样品的豪斯纳比率(HR)从 1.14 增加到 1.41,相应的流动性也从好到差。相反,在掺入硬脂酸的样品中,最佳掺量为 0.10 wt%,其 HR 值在 1.14 至 1.16 之间非常稳定。同时,经过 156 天的计算,未进行表面改性和使用 0.10 wt% 硬脂酸的样品的重置角(AR)分别为 49°和 28°。根据 HR 值和 AR 值可知,未改性样品的流动性较差,而使用 0.10 wt% 硬脂酸改性的样品仍能保持良好的粉末流动性。此外,用硬脂酸含量为 0.10 wt% 的改性 Li2CO3 粉末合成的 LiMn2O4 阴极材料具有良好的结晶性,其电化学性能与用商用 Li2CO3 制备的材料相当。这些结果表明,硬脂酸有可能成为需要长期保存的电池级 Li2CO3 粉末的理想改性剂。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Influence of stearic acid surface modification on flowability and agglomeration of battery grade Li2CO3 powder

This work investigates the flow and agglomeration behaviors of battery grade Li2CO3 powder and the influence of stearic acid surface modification. The degree of agglomeration is directly related to the uniformity of Li2CO3 and its powder mixtures. According to the Chinese National Nonferrous Metal Industry Standard, battery grade Li2CO3 powder has D50 equal to 3–8 μm which belongs to a micron-sized superfine powder. Therefore, with the extension of storage time, the serious agglomeration phenomenon occurs due to the large specific surface area and rough and irregular powder particles. The Hausner ratio (HR) of the unmodified sample increases from 1.14 to 1.41, and the corresponding flowability is classified as good to poor. Instead, among samples with doping stearic acid, the optimum amount of it is 0.10 wt% which exhibits an extremely stable HR value from 1.14 to 1.16. Meanwhile, after 156 days, the repose angle (AR) obtained for samples without surface modification and using 0.10 wt% stearic acid are calculated to be 49° and 28°, respectively. Based on the values of HR and AR, the flowability of the unmodified sample is poor while the sample modified with 0.10 wt% of stearic acid still maintain excellent powder flow property. Moreover, The LiMn2O4 cathode material synthesized from modified Li2CO3 powder with a stearic acid content of 0.10 wt% exhibits good crystallinity and comparable electrochemical performance to that prepared by commercial Li2CO3. These results indicate that stearic acid has the potential to be an ideal modifier for battery grade Li2CO3 powder that needs to be kept for a long time.

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来源期刊
Particuology
Particuology 工程技术-材料科学:综合
CiteScore
6.70
自引率
2.90%
发文量
1730
审稿时长
32 days
期刊介绍: The word ‘particuology’ was coined to parallel the discipline for the science and technology of particles. Particuology is an interdisciplinary journal that publishes frontier research articles and critical reviews on the discovery, formulation and engineering of particulate materials, processes and systems. It especially welcomes contributions utilising advanced theoretical, modelling and measurement methods to enable the discovery and creation of new particulate materials, and the manufacturing of functional particulate-based products, such as sensors. Papers are handled by Thematic Editors who oversee contributions from specific subject fields. These fields are classified into: Particle Synthesis and Modification; Particle Characterization and Measurement; Granular Systems and Bulk Solids Technology; Fluidization and Particle-Fluid Systems; Aerosols; and Applications of Particle Technology. Key topics concerning the creation and processing of particulates include: -Modelling and simulation of particle formation, collective behaviour of particles and systems for particle production over a broad spectrum of length scales -Mining of experimental data for particle synthesis and surface properties to facilitate the creation of new materials and processes -Particle design and preparation including controlled response and sensing functionalities in formation, delivery systems and biological systems, etc. -Experimental and computational methods for visualization and analysis of particulate system. These topics are broadly relevant to the production of materials, pharmaceuticals and food, and to the conversion of energy resources to fuels and protection of the environment.
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