Preparation of Advanced Carbon Anode Materials from Mesocarbon Microbeads for Use in High C-Rate Lithium Ion Batteries

Jiin-Jiang Jow; Jin-Long Hong; Jui-Pin Yen; Ming-Dar Fang; She-Huang Wu; Tsung-Han Ho; Wen-Hsiang Hsieh; Yu-Run Lin

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Preparation of Advanced Carbon Anode Materials from Mesocarbon Microbeads for Use in High C-Rate Lithium Ion Batteries

机译：由中碳微珠制备高级碳阳极材料，以用于高C速率锂离子电池

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Mesophase soft carbon (MSC) and mesophase graphite (SMG), for use in comparative studies of high C-rate Lithium Ion Battery (LIB) anodes, were made by heating mesocarbon microbeads (MCMB) at 1300 °C and 3000 °C; respectively. The crystalline structures and morphologies of the MSC, SMG, and commercial hard carbon (HC) were investigated by X-ray diffraction, transmission electron microscopy, scanning electron microscopy, and Raman spectroscopy. Additionally, their electrochemical properties, when used as anode materials in LIBs, were also investigated. The results show that MSC has a superior charging rate capability compared to SMG and HC. This is attributed to MSC having a more extensive interlayer spacing than SMG, and a greater number of favorably-oriented pathways when compared to HC.

机译：中间相软碳（MSC）和中间相石墨（SMG）通过在1300°C和3000°C下加热中间碳微珠（MCMB）来制备用于高C速率锂离子电池（LIB）阳极的比较研究;分别。通过X射线衍射，透射电子显微镜，扫描电子显微镜和拉曼光谱研究了MSC，SMG和商用硬碳（HC）的晶体结构和形态。另外，还研究了它们的电化学性能，当用作LIB中的阳极材料时。结果表明，与SMG和HC相比，MSC具有更高的充电速率能力。这归因于与HC相比，MSC具有比SMG更广泛的层间间距以及更多数量的有利定向路径。

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《Materials》 |2015年第6期|共12页
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Jiin-Jiang Jow; Jin-Long Hong; Jui-Pin Yen; Ming-Dar Fang; She-Huang Wu; Tsung-Han Ho; Wen-Hsiang Hsieh; Yu-Run Lin;
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1. Preparation of mesocarbon microbeads as anode material for lithium-ion battery by thermal polymerization of a distillate fraction from an FCC slurry oil after hydrofining with suspended catalyst [J] . Guo Aijun, Wang Feng, Jiao Shouhui, Fuel . 2020,第Sepa15期

机译：用悬浮催化剂加氢后，通过从FCC浆料油的馏分馏分的热聚合制备Mesocarbon Microbeads作为锂离子电池的阳极材料
2. Characterization and electrochemical investigation of boron-doped mesocarbon microbead anode materials for lithium ion batteries [J] . Mao-Hui Cheni, Guo-Tao Wu, Guang-Ming Zhu, Journal of solid state electrochemistry . 2002,第6期

机译：锂离子电池硼掺杂中碳微珠阳极材料的表征与电化学研究
3. Self-Assembly of Silicon@Oxidized Mesocarbon Microbeads Encapsulated in Carbon as Anode Material for Lithium-Ion Batteries [J] . Liu Huitian, Shan Zhongqiang, Huang Wenlong, ACS applied materials & interfaces . 2018,第5期

机译：硅@氧化的Mesocarbon Microbead的自组装作为碳锂离子电池的阳极材料
4. MESOCARBON MICROBEADS HEAT-TREATED AT LOW TEMPERATURE USED AS ANODE MATERIAL OF LITHIUM-ION BATTERIES [C] . Xuefei Guo, Chengyang Wang, Mingming Chen Annual World Conference on Carbon . 2011

机译：Mesocarbon Microbeads在低温下用作锂离子电池的阳极材料进行热处理
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. Preparation of Advanced Carbon Anode Materials from Mesocarbon Microbeads for Use in High C-Rate Lithium Ion Batteries [O] . Ming-Dar Fang, Tsung-Han Ho, Jui-Pin Yen, 2015

机译：由中碳微珠制备高级碳阳极材料以用于高C速率锂离子电池
7. Preparation of Advanced Carbon Anode Materials from Mesocarbon Microbeads for Use in High C-Rate Lithium Ion Batteries [O] . Ming-Dar Fang, Tsung-Han Ho, Jui-Pin Yen, 2015

机译：用中高碳微球制备用于高C速锂离子电池的先进碳阳极材料

Preparation of Advanced Carbon Anode Materials from Mesocarbon Microbeads for Use in High C-Rate Lithium Ion Batteries

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