Zn–Fe–O@C hollow microspheres as a high performance anode material for lithium-ion batteries

Jiayue Zhao; Junming Su; Siyang Liu; Xiang Chen; Tao Huang; Aishui Yu

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Zn–Fe–O@C hollow microspheres as a high performance anode material for lithium-ion batteries

机译：Zn–Fe–O @ C中空微球作为锂离子电池的高性能阳极材料

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In this study, Zn–Fe–O@C hollow microspheres are prepared by chemical vapor deposition (CVD) method with ZnFe₂O₄ hollow microspheres as precursors which are synthesized via a facile solvothermal method. ZnFe₂O₄ hollow microspheres and Zn–Fe–O@C hollow microspheres are characterized by X-ray diffraction, Raman spectroscopy, scanning electron microscopy and transmission electron microscopy. The physical analysis shows a fraction of Fe(III) reduced to Fe(II) and the hollow microspheres maintained during the CVD process. Zn–Fe–O@C hollow microspheres can deliver a reversible specific capacity of 1035.6 mA h g?1 after 50 cycles at a current density of 100 mA g?1, and maintain a stable capacity as high as 1000 mA h g?1 at 500 mA g?1 after 200 cycles. Compared with ZnFe₂O₄ hollow microspheres, Zn–Fe–O@C hollow microspheres present excellent rate performance. The better electrochemical performances of the Zn–Fe–O@C hollow microspheres should be ascribed to the carbon coating, which can elevate electrical conductivity and improve the structural stability of the active materials.

机译：在这项研究中，使用化学气相沉积（CVD）方法以ZnFe _{2 O _{4 制备Zn–Fe–O @ C中空微球。 sub> 中空微球作为前体，通过简便的溶剂热法合成。 ZnFe _{2 O _{4 空心微球和Zn–Fe–O @ C空心微球的X射线表征衍射，拉曼光谱，扫描电子显微镜和透射电子显微镜。物理分析表明，一部分Fe（ III ）还原为Fe（ II ），并且在CVD过程中保持了中空微球。 Zn–Fe–O @ C中空微球在电流密度为100 mA g <的情况下经过50次循环后可提供1035.6 mA hg ？1 的可逆比容量。 sup>？1 ，并在500 mA g 时保持高达1000 mA hg ？1 的稳定容量200个周期后的？1 。与ZnFe _{2 O _{4 空心微球相比，Zn–Fe–O @ C空心微球具有出色的速率性能。 Zn-Fe-O @ C中空微球的更好的电化学性能应归因于碳涂层，这可以提高电导率并改善活性材料的结构稳定性。}}}}}} 展开▼

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《RSC Advances》 |2017年第9期|共7页

作者
Jiayue Zhao; Junming Su; Siyang Liu; Xiang Chen; Tao Huang; Aishui Yu;
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中图分类化学;

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1. Zn–Fe–O@C hollow microspheres as a high performance anode material for lithium-ion batteries [J] . Jiayue Zhao, Junming Su, Siyang Liu, RSC Advances . 2017,第9期

机译：Zn–Fe–O @ C中空微球作为锂离子电池的高性能阳极材料

2. Monodispersed hollow carbon/Fe_3O_4 composite microspheres for high performance anode materials in lithium-ion batteries [J] . Jun-Ki Hwang, Hyung-Seok Lim, Yang-Kook Sun, Journal of power sources . 2013,第deca15期

机译：锂离子电池高性能负极材料的单分散空心碳/ Fe_3O_4复合微球

3. Hierarchically porous Zn-Co-O NCs-in-carbon hollow microspheres with high rate-capacity and cycle stability as anode materials for lithium-ion batteries [J] . Chuan Ding, Xiaoshu Jiang, Xiaohong Huang, Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2018,第期

机译：具有高速率容量和循环稳定性的分层多孔Zn-Co-On-In-碳中空微球作为锂离子电池的阳极材料

4. Dual phase Li4Ti5O_(12)-TiO2 hierarchical hollow microspheres as anode materials for high rate lithium-ion batteries [C] . Kunxu Zhu, Guoxin Hu International Conference on New Material and Chemical Industry . 2017

机译：双相Li4Ti5O_（12）-tio2层次空心微球作为高速锂离子电池的阳极材料

5. Preparation and Investigation of Anode Materials with Highly Conductive Materials for High-performance Lithium-ion Batteries [D] . Zhao, Yinchao. 2020

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6. Template-Free Synthesis of Sb2S3 Hollow Microspheres as Anode Materials for Lithium-Ion and Sodium-Ion Batteries [O] . Jianjun Xie, Li Liu, Jing Xia, -1

机译：Sb2S3空心微球的无模板合成作为锂离子和钠离子电池的负极材料

7. Accurate Control of Multishelled Co3O4 Hollow Microspheres as High-Performance Anode Materials in Lithium-Ion Batteries [O] . Wang Jiangyan, Yang Nailiang, Tang Hongjie, 2013

机译：锂离子电池中作为高性能阳极材料的多壳Co3O4空心微球的精确控制

1. MFe2O4(M=Co,Zn)中空微球的气泡模板法合成及在锂离子电池中的应用 [J] . 陈小梅 ,关翔锋 ,李莉萍 . 高等学校化学学报 . 2011,第003期

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3. 多壳层中空CoFe2O4复合物微球锂离子电池负极材料的研究 [J] . 唐佳易 ,牛峥 ,陈祥祯 . 电池工业 . 2019,第005期

4. 中德科学家合作研发新型阳极材料制成高性能且安全的锂离子电池 [J] . . 中国粉体工业 . 2020,第005期

5. 电纺自支撑空穴硅碳纳米纤维在高性能锂离子电池阳极材料中的应用 [J] . 赵丹 ,刘书武 ,彭信文 . 江西师范大学学报（自然科学版） . 2014,第003期

6. 以NH4FePO4·H2O制备高性能锂离子电池正极材料LiFePO4 [C] . 李维 ,应皆荣 ,姜长印 . 第十三次全国电化学会议 . 2005

7. 高性能锂离子电池阳极材料Li4Ti5O12的合成与改性研究 [A] . 孟宇 . 2015

1. 一种中空结构硅/碳纳米粒子自组装石榴状硅基阳极材料及高性能锂离子电池 [P] . 中国专利： CN113285065A . 2021-08-20

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3. Cobalt oxide-carbon composite useful as anode material for lithium-based energy storage device, preferably e.g. lithium-ion battery, lithium polymer battery and lithium-ion capacitor, comprises carbon coated cobalt monoxide particles [P] . 外国专利： DE102011057015A1 . 2013-06-27

机译：氧化钴-碳复合材料可用作锂基储能装置的阳极材料，最好是例如锂离子电池，锂聚合物电池和锂离子电容器，包括碳涂层的一氧化钴颗粒

4. Hollow silicon structures for use as anode active materials in lithium-ion batteries [P] . 外国专利： US10381641B2 . 2019-08-13

机译：用作锂离子电池阳极活性材料的空心硅结构

5. HOLLOW SILICON STRUCTURES FOR USE AS ANODE ACTIVE MATERIALS IN LITHIUM-ION BATTERIES [P] . 外国专利： WO2015153637A3 . 2015-11-26

机译：空心硅结构用作锂离子电池中的阳极活性材料

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Zn–Fe–O@C hollow microspheres as a high performance anode material for lithium-ion batteries

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