Spray-Drying Synthesis of LiFeBO3/C Hollow Spheres With Improved Electrochemical and Storage Performances for Li-Ion Batteries

Yulei Sui; Wei Chen; Shibao Tang; Ling Wu; Binjue Wang; Huacheng Li; Wei Li; Shengkui Zhong

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Spray-Drying Synthesis of LiFeBO3/C Hollow Spheres With Improved Electrochemical and Storage Performances for Li-Ion Batteries

机译：喷雾干燥合成LiFeBO3 / C空心球具有改善的电化学性能和锂离子电池的存储性能

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LiFeBO3/C cathode material with hollow sphere architecture is successfully synthesized by a spray-drying method. SEM and TEM results demonstrate that the micro-sized LiFeBO3/C hollow spheres consist of LiFeBO3@C particles and the average size of LiFeBO3@C particles is around 50-100 nm. The thickness of the amorphous carbon layer which is coated on the surface of LiFeBO3 nanoparticles is about 2.5 nm. LiFeBO3@C particles are connected by carbon layers and formed conductive network in the LiFeBO3/C hollow spheres, leading to improved electrical conductivity. Meanwhile, the hollow structure boosts the Li+ diffusion and the carbon layers of LiFeBO3@C particles protect LiFeBO3 from moisture corrosion. Consequently, synthesized LiFeBO3/C sample exhibits good electrochemical properties and storage performance.

机译：采用喷雾干燥法成功合成了空心球状的LiFeBO3 / C正极材料。 SEM和TEM结果表明，微米级的LiFeBO3 / C空心球由LiFeBO3 @ C颗粒组成，LiFeBO3 @ C颗粒的平均尺寸约为50-100 nm。涂覆在LiFeBO 3纳米颗粒表面上的无定形碳层的厚度为约2.5nm。 LiFeBO3 @ C颗粒通过碳层连接，并在LiFeBO3 / C空心球中形成导电网络，从而提高了电导率。同时，中空结构促进了Li +的扩散，LiFeBO3 @ C颗粒的碳层保护了LiFeBO3免受湿气腐蚀。因此，合成的LiFeBO3 / C样品具有良好的电化学性能和存储性能。

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《Frontiers in Chemistry》 |2019年第2004期|共8页
作者
Yulei Sui; Wei Chen; Shibao Tang; Ling Wu; Binjue Wang; Huacheng Li; Wei Li; Shengkui Zhong;
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中图分类 TB14;
关键词
Li-ion batteriesLiFeBo3Hollow SphereCathode materialsSpray drying;

机译：锂离子电池LiFeBo3空心球阴极材料喷雾干燥;

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1. Dual-template synthesis of novel pomegranate-like hollow carbon nanoparticles with improved electrochemical performance for Li-ion batteries [J] . Ma Canliang, Dong Jing, Zhao Yun, Carbon: An International Journal Sponsored by the American Carbon Society . 2016,第Null期

机译：用于锂离子电池的具有改进电化学性能的新型石榴状空心碳纳米粒子的双模板合成
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机译：量身定制的单分散纳米/亚微米多孔碳氧化硅（SiOC）球体，具有改善的锂存储性能，可作为锂离子电池的负极材料
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机译：介孔LiFeBO3 / C空心球可改善锂离子电池正极的稳定性
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机译：锂离子电池用球形LiFePO_4正极材料的合成及电化学性能
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机译：封装在空心TiO2球中的锡纳米颗粒可作为锂离子电池的高性能阳极材料。
6. Spray-Drying Synthesis of LiFeBO3/C Hollow Spheres With Improved Electrochemical and Storage Performances for Li-Ion Batteries [O] . Yulei Sui, Wei Chen, Shibao Tang, 1970

机译：LiFeBO3 / C空心球的喷雾干燥合成及其对锂离子电池电化学和储存性能的改进
7. Crystalline Carbon Hollow Spheres, Crystalline Carbon-SnO2 Hollow Spheres, and Crystalline SnO2 Hollow Spheres: Synthesis and Performance in Reversible Li-Ion Storage [O] . -1

机译：结晶碳中空球，结晶碳 - SnO2中空球体，结晶SnO2空心球：可逆锂离子储存的合成和性能

Spray-Drying Synthesis of LiFeBO3/C Hollow Spheres With Improved Electrochemical and Storage Performances for Li-Ion Batteries

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