Fe3O4／C的制备与电化学性能研究被引量：1

Electrochemical Performance of Fe_3O_4/C Composites as Negative Material for Lithium-Ion Batteries

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摘要应用共沉淀法并以原位聚合苯胺包覆Fe3O4作碳源制备Fe3O4/C的复合材料.XRD、SEM、TEM等测试显示,样品中Fe3O4纳米颗粒(40～80 nm)均匀分散在无定形碳的内部.在50 mA.g-1电流密度下,经过30次循环充放电测试,该材料的容量仍保持在1000 mAh.g-1左右. The Fe3O4/Carbon composites have been synthesized through coprecipitation pathway and by insitu aniline polymerization as a carbon source. Structural characterization and morphological study of the composites were investigated by using XRD, SEM and TEM techniques. The results showed that the nanosized Fe3O4 particles（40 - 80 nm） were encapsulated in the amorphous carbon. During the electrochemical tests, the Fe3O4/C composites exhibited high capaticity and excellent cycle ability, the retention of capaticity was about 1000 mAh·g^-1 after 30 cycles of charge/discharge tests at 50 mA·g^-1

作者蔡俊杰姚姝李泽胜孟辉沈培康

机构地区中山大学光电材料与技术国家重点实验室

出处《电化学》 CAS CSCD 北大核心 2013年第1期89-92,共4页 Journal of Electrochemistry

基金国家自然科学基金(No.21073241,No.U1034003)资助

关键词 FE3O4 负极材料锂离子电池无定形碳 Fe3O4 negative materials Li-ion batteries amorphous carbon

分类号 O646 [理学—物理化学] TM912.9 [电气工程—电力电子与电力传动]

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1Zhang W M, Wu X L, Hu J S, et al. Carbon coated Fe304 nanospindles as a superior anode material for lithium-ion batteries[J]. Advanced Functional Material, 2008, 18 (24): 3941-3946.
2Lim H S, Jung B Y, Sun Y K, et al. Hollow Fe304 micro- spheres as anode materials for lithium-ion batteries [J]. Electrochimica Acta, 2012, 75: 123-130.
3Hao Q Y, Lei D N, Yin X M, et al. 3-D mesoporous nano/micro-structured Fe304/C as a superior anode materi- al for lithium-ion batteries[J]. Journal of Solid State Elec- trochemistry, 2011, 15(11/12): 2563-2569.
4Iida H, Takayanagi K, Nakanishi T, et al. Synthesis of Fe304 nanoparticles with various sizes and magnetic prop- erties by controlled hydrolysis[J]. Journal of Colloid Inter- face Science, 2007, 314(1): 274-280.
5Wang J, Deng T, Dai Y. Study on the processes and mech- anism of the formation of Fe304 at low temperature [J]. Journal of Alloy Compound, 2005, 390(1/2): 127-132.
6Su D W, Horvat J, Munroe P, et al. Polyhedral magnetite nanocrystals with multiple facets: Facile synthesis, struc- tural modelling, magnetic properties and application for high capacity lithium storage [J]. Chemistry-A European Journal, 2012, 18(2): 488-497.
7Gao G, Wu H X, Zhang Y X, et al. Synthesis of ultrasmal nucleotide- functionalized superparamagnetic y-Fe203 nanoparticles [J]. CrystEngComm, 2011, 13 (15): 4810- 4813.
8Chen L Q, Yang X F, Chen J, et al. Continuous shape- and spectroscopy-tuning of hematite nanocrystals[J]. Inorganic Chemistry, 2010, 49(18): 8411-8420.
9Liu H, Wang G X, Wang J Z, et al. Magnetite/carbon core-shell nanorods as anode materials for lithium-ion batteries[J]. Electrochemistry Communination, 2008, 10 (12): 1879-1882.
10Wang S Q, Zhang J Y, Chen C H. Fe304 submicron spheroids as anode materials for lithium-ion batteries with stable and high electrochemical performance[J]. Journal of Power Sources, 2010, 195(16): 5379-5381.

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1邹红丽,李伟善.单分散球形纳米Fe3O4的可控合成和嵌锂性质研究[J].电化学,2013,19(6):590-594.

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2詹凤,范君伟,李成魁,严彪.水热法制备纳米Fe_3O_4磁性颗粒[J].金属功能材料,2012,19(1):20-25. 被引量：15
3林建,胡大为,胡小芳.弱外磁场辅助氧化共沉淀法合成正八面体Fe_3O_4纳米颗粒[J].人工晶体学报,2010,39(1):174-179. 被引量：1
4安静,何峻,赵栋梁,贺淑丽.Fe_3O_4纳米颗粒的溶剂热法制备及电磁特性研究[J].功能材料,2013,44(14):2047-2050. 被引量：7
5郭园,陈静,张茂润.稀土Dy^(3+)掺杂Fe_3O_4纳米颗粒的合成与磁性[J].磁性材料及器件,2010,41(6):32-35. 被引量：3
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7周晟阳,冯国英,李玮,周寿桓.电爆炸法制备Fe3O4纳米颗粒及其物相研究[J].强激光与粒子束,2016,28(8):137-141. 被引量：5
8马涛,吴静芝,杨丽珍,郝燕萍.纳米磁性液体的制备和性能[J].机械工程材料,2006,30(2):58-60. 被引量：6
9倪经,魏恭,吕涛,邵晓萍,谭士杰,代波.八面体Fe_3O_4纳米颗粒的制备及微波吸收性能[J].磁性材料及器件,2012,43(4):21-24. 被引量：4
10王伟,沈辉.纳米Fe_3O_4颗粒改性详析[J].材料科学与工艺,2001,9(4):431-433. 被引量：20

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Fe3O4／C的制备与电化学性能研究被引量：1