Porous Multicomponent Mn–Sn–Co Oxide Microspheres as Anodes for High-Performance Lithium-Ion Batteries

Hongxun Yang; Bin Wu; Yongmin Liu; Zhenkang Wang; Minghang Xu; Tongyi Yang; Yingying Chen; Changhua Wang; Shengling Lin

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Porous Multicomponent Mn–Sn–Co Oxide Microspheres as Anodes for High-Performance Lithium-Ion Batteries

机译：多孔多组分Mn-Sn-Co氧化物微球作为高性能锂离子电池的阳极

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Porous multicomponent Mn–Sn–Co oxide microspheres (MnSnO3–MC400 and MnSnO3–MC500) have been fabricated using CoSn(OH)6 nanocubes as templates via controlling pyrolysis of a CoSn(OH)6/Mn0.5Co0.5CO3 precursor at different temperatures in N2. During the pyrolysis process of CoSn(OH)6/Mn0.5Co0.5CO3 from 400 to 500 °C, the part of (Co,Mn)(Co,Mn)2O4 converts into MnCo2O4 accompanied with structural transformation. The MnSnO3–MC400 and MnSnO3–MC500 microspheres as secondary nanomaterials consist of MnSnO3, MnCo2O4, and (Co,Mn)(Co,Mn)2O4. Benefiting from the advantages of multicomponent synergy and porous secondary nanomaterials, the MnSnO3–MC400 and MnSnO3–MC500 microspheres as anodes exhibit the specific capacities of 1030 and 750 mA h g–1 until 1000 cycles at 1 A g–1 without an obvious capacity decay, respectively.

机译：通过控制CoSn（OH）6 / Mn0.5Co0.5CO3前体在不同温度下的热解，使用CoSn（OH）6纳米立方体作为模板制备了多孔多组分Mn-Sn-Co氧化物微球（MnSnO3-MC400和MnSnO3-MC500）。在N2中。在CoSn（OH）6 / Mn0.5Co0.5CO3从400到500°C的热解过程中，部分（Co，Mn）（Co，Mn）2O4转化为MnCo2O4，并伴随结构转变。作为次要纳米材料的MnSnO3-MC400和MnSnO3-MC500微球由MnSnO3，MnCo2O4和（Co，Mn）（Co，Mn）2O4组成。受益于多组分协同作用和多孔次级纳米材料的优势，作为阳极的MnSnO3-MC400和MnSnO3-MC500微球作为阳极表现出的比容量为1030和750 mA hg-1，直到在1 A g-1时进行1000次循环后，容量没有明显下降，分别。

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《ACS Omega》 |2019年第14期|共10页
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Hongxun Yang; Bin Wu; Yongmin Liu; Zhenkang Wang; Minghang Xu; Tongyi Yang; Yingying Chen; Changhua Wang; Shengling Lin;
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1. In situ formation of porous graphitic carbon wrapped MnO/Ni microsphere networks as binder-free anodes for high-performance lithium-ion batteries [J] . Kong Xiangzhong, Pan Anqiang, Wang Yaping, Journal of Materials Chemistry, A. Materials for energy and sustainability . 2018,第26期

机译：原位形成多孔石墨碳包裹的MNO / Ni微球网络作为用于高性能锂离子电池的无粘合剂阳极
2. Hierarchical porous CoMn2O4 microspheres with sub-nanoparticles as advanced anode for high-performance lithium-ion batteries [J] . Jiu Hongfang, Ren Na, Jiang Liya, Journal of solid state electrochemistry . 2018,第9期

机译：具有亚纳米粒子的分层多孔COMN2O4微球，作为高性能锂离子电池的先进阳极
3. Hierarchical Porous ZnMn2O4 Microspheres as a High-Performance Anode for Lithium-Ion Batteries [J] . Fan Binbin, Hu Aiping, Chen Xiaohua, Electrochimica Acta . 2016,第Null期

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4. Porous Fe2O3 Microspheres as Anode for Lithium-Ion Batteries [C] . L.Noerochim, M.A.T.Indra, H.Purwaningsih International Conference on Advanced Materials Science and Technology . 2018

机译：多孔Fe2O3微球作为锂离子电池的阳极
5. Preparation and Investigation of Anode Materials with Highly Conductive Materials for High-performance Lithium-ion Batteries [D] . Zhao, Yinchao. 2020

机译：高性能锂离子电池具有高导电材料的阳极材料的制备与研究
6. Porous Multicomponent Mn–Sn–CoOxide Microspheres as Anodes for High-Performance Lithium-Ion Batteries [O] . Hongxun Yang, *, Bin Wu, 2019

机译：多孔多组分Mn–Sn–Co氧化物微球作为高性能锂离子电池的阳极
7. Porous Multicomponent MnSnCo Oxide Microspheres as Anodes for High-Performance Lithium-Ion Batteries [O] . -1

机译：多孔多组分MnSnCo氧化物微球作为高性能锂离子电池的阳极

Porous Multicomponent Mn–Sn–Co Oxide Microspheres as Anodes for High-Performance Lithium-Ion Batteries

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