Improvement in hydrophobicity of olivine lithium manganese iron phosphate cathodes by SiF4 treatment for lithium-ion batteries

Theivanayagam Murali G.; Hu Terry; Ziebarth Robin; Santhany Stacie; Goss Janet; Maeda Hideaki; Patel Avani; Behr Michael; Lowe Michael; Leugers Anne

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Improvement in hydrophobicity of olivine lithium manganese iron phosphate cathodes by SiF4 treatment for lithium-ion batteries

机译：通过SiF4处理改善锂离子电池橄榄石锂锰铁锰阴极的疏水性

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In this report, we successfully demonstrate a novel SiF4 treatment on lithium manganese iron phosphate cathode (LMFP) that can significantly improve its hydrophobic property. The effect of SiF4 treatment on the structure and hydrophobicity of LMFP powder was studied by X-ray diffraction, Fourier transform infra-red spectroscopy, scanning transmission electron microscopy-energy dispersive X-ray spectroscopy, Karl Fisher titration, and thermo-microbalance gravimetric studies. The SiF4 treated LMFP cathode shows a substantial decrease in moisture adsorption by up to half of the untreated LMFP under ambient conditions. The SiF4-treated LMFP also shows excellent cycle life when cycled in lithium-ion full cells, even after exposing the electrodes to ambient conditions for one day, while the untreated LMFP showed a decrease in cycle life after the same exposure. (C) 2015 Elsevier B.V. All rights reserved.

机译：在此报告中，我们成功地证明了可对锂锰铁磷酸盐阴极（LMFP）进行新颖的SiF4处理，该处理可显着改善其疏水性。通过X射线衍射，傅立叶变换红外光谱，扫描透射电子显微镜-能量色散X射线光谱，Karl Fisher滴定和热微天平重量分析研究了SiF4处理对LMFP粉末结构和疏水性的影响。。在环境条件下，经SiF4处理的LMFP阴极显示的水分吸附量显着下降，最多达到未经处理的LMFP的一半。经过SiF4处理的LMFP在锂离子全电池中循环时，即使在将电极暴露于环境条件下一天后，也显示出出色的循环寿命，而未经处理的LMFP在相同的暴露后显示出循环寿命下降。（C）2015 Elsevier B.V.保留所有权利。

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《Solid state ionics》 |2015年第null期|共7页
作者
Theivanayagam Murali G.; Hu Terry; Ziebarth Robin; Santhany Stacie; Goss Janet; Maeda Hideaki; Patel Avani; Behr Michael; Lowe Michael; Leugers Anne;
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正文语种 eng
中图分类固体物理学;
关键词
Nanomaterials; Inorganic materials; Cathodes; Energy storage; Batteries;

机译：纳米材料;无机材料;阴极;储能;电池;

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1. Improvement in hydrophobicity of olivine lithium manganese iron phosphate cathodes by SiF4 treatment for lithium-ion batteries [J] . Theivanayagam Murali G., Hu Terry, Ziebarth Robin, Solid state ionics . 2015,第Null期

机译：通过SiF4处理改善锂离子电池橄榄石锂锰铁锰阴极的疏水性
2. Synthesis and characterization of olivine phosphate cathode material with different particle sizes for rechargeable Lithium-ion batteries [J] . Raza Shahid, Sevi Murugavel Materials Chemistry and Physics . 2013,第2a3期

机译：可充电锂离子电池不同粒径橄榄石磷酸盐正极材料的合成与表征
3. Probing the morphology dependence, size preference and electron/ion conductance of manganese-based lithium transition-metal phosphate as cathode materials for high-performance lithium-ion battery [J] . Wang Yan, Yu Faquan Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2021,第1期

机译：探讨基于锰基锂过渡金属磷酸盐作为高性能锂离子电池的阴极材料的形态依赖性，大小偏好和电子/离子电导
4. Lithium Manganese Iron Phosphate: The Next-Generation Olivine Cathode Material for Li-ion Batteries [C] . SC Liao Annual international battery seminar and exhibit . 2019

机译：磷酸锂锰铁：用于锂离子电池的下一代橄榄石阴极材料
5. Iron phosphates as cathodes for lithium-ion batteries. [D] . Wang, Shijun. 2009

机译：磷酸铁用作锂离子电池的正极。
6. Engineering and Optimization of Silicon–Iron–Manganese Nanoalloy Electrode for Enhanced Lithium-Ion Battery [O] . Pankaj K. Alaboina, Jong-Soo Cho, Sung-Jin Cho -1

机译：增强锂离子电池硅铁锰纳米合金电极的工程与优化
7. A detailed study of the lithiation of iron phosphate as well as the development of a novel synthesis of lithium iron silicate as cathode material for lithium-ion batteries [O] . Galoustov Karen 2011

机译：磷酸铁锂化的详细研究以及新型合成锂硅酸锂作为锂离子电池正极材料的开发

Improvement in hydrophobicity of olivine lithium manganese iron phosphate cathodes by SiF4 treatment for lithium-ion batteries

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