锂离子二次电池硬炭负极材料的研究进展
被引量:1
Review of Hard Carbon as Anodic Materials for Li-ion Batteries
摘要
本文从原材料和制备工艺两方面综述了锂离子二次电池硬炭负极材料的研究进展。
This paper reviews the developing status of hard carbon as anodic materials for Li-ion batteries about raw materials and methods.
出处
《船电技术》
2014年第5期43-46,共4页
Marine Electric & Electronic Engineering
关键词
锂离子电池
负极材料
硬炭
Li-ion batteries
hard carbons
anodic materials
参考文献17
-
1Walter A V S, Bruno S. Advances in lithium ion batteries. New York: Kluwer Acadimic/Plenum Publishers, 2002.
-
2Buiel E, George AE, Dahn JR. On the reduction of lithium insertion capacity in hard-carbon anode materials with increasing heat-treatment temperature, J. Electrochem. Soc., 1998, 145(7): 2252-2257.
-
3Zheng T, McKinnon WR, Dahn JR. Hysteresis during lithium insertion in Hydrogen-containing carbons, J. Eleetrochem. Soe., 1996, 143(7): 2137-2145.
-
4Yi ZH, Liang YG, Lei XF, et al. Low-temperature synthesis of nanosized disordered carbon spheres as an anode material for lithium ion batteries, Mater. Lett., 2007, 61(19-20): 4199-4203.
-
5Xing WB, Xue IS, Zheng T, et al. Correlation between lithium intercalation capacity and microstructure in hard carbons, J. Electrochem. Soc., 1996, 143(11): 3482-3491.
-
6LI WB, Chen MM, Wang CY. Spherical hard carbon prepared from potato starch using as anode material for Li-ion batteries, Mater. Lett., 2011, 65(23):3368-3370.
-
7Fey GTK, Chert CL. High-capacity carbons for lithium-ion batteries prepared from rice husk, J. Power Sources, 2001, 97-98: 47-51.
-
8Stephan AM, Kumar TP, Ramesh R, et al. Pyrolytic carbon from biomass precursors as anode materials for lithium batteries, Mater. Sci. Eng., A, 2006, 430(1-2): 132-137.
-
9Hwang Y J, Jeong SK, Nahm KS, et al. Pyrolytic carbon derived from coffee shells as anode materials for lithium batteries, J. Phys. Chem. Solids, 2007, 68(2): 182-188.
-
10Liu T, Luo RY, Qiao WM, et al. Microstructure of carbon derived from mangrove charcoal and its application in Li-ion batteries, Electrochim. Acta. 2010, 55(5): 1696-1700.
二级参考文献7
-
1ZHENG T, MCKINNON W R, DAHN J R. Hysteresis during lithium insertion in hydrogen-containing carbons[J]. J Eleetrochem Soc,1996, 143:2 137.
-
2BUIEL E, DAHN J R. Reduction of the irreversible capacity in hard-carbon anode material prepared from sucroae for Li-ioa batteries[J]. J Electrochem Soc, 1998,145:1 977.
-
3JUNG Y J, SUH M. Electrochemical insertion of lithium into poly-acrylonitrile-based disordered carbons[J]. J Eleetrochem Soc, 1997,144 : 4 279.
-
4LIU Y H, XUE J S, DAHN J R, et al. Mechanism of lithium insertion in hard carbons prepared by pyrolysis of epoxy resins[J]. Carbon, 1996, 34 (2) : 193--200.
-
5LNABA M, YOSHIDO H. In situ raman study of ehetrochemical lithium insertion mesocarbon microbeads heat-treated at various temperatures[J]. J Electrochem Soc, 1996,143:2 570.
-
6LAN A C, DAHN J R. Electrochemical and in situ X-Ray diffraction studies of the reaction of lithium with tin oxide eomlxmites [J ]. J Electrochem Soc, 1997, 144:2 045.
-
7XING W B, WILSON A M. Pyrolyzed polysiloxanes for use as anode materials in lithium-ion batteries[J]. J Eleetrochem Soc, 1997,144:2 410.
同被引文献6
-
1蒋挺大.木质素[M].北京:化学工业出版社,2008:110-112.
-
2Yehezkel S, Auinat M, Sezin N, et al. Bundled and densified carbon nanotubes (CNT) fabrics as flexible ultra-light weight Li-ion battery anode current collectors [J]. Journal of Power Sources, 2016, 312:109-115.
-
3Berecibar M, Gandiaga I, Villarreal I, et al. Critical review of state of health estimation methods of Li-ion batteries for real applications [J]. Renewable and Sustainable Energy Reviews, 2016, 56: 572-557.
-
4Rashid T, Kait C F, Regupathi I, et al. Dissolution of kraft lignin using Proticlonic Liquids and characterization[J]. Industrial Crops and Products, 2016, 84:284-293.
-
5路瑶,魏贤勇,宗志敏,陆永超,赵炜,曹景沛.木质素的结构研究与应用[J].化学进展,2013,25(5):838-858. 被引量:170
-
6陶用珍,管映亭.木质素的化学结构及其应用[J].纤维素科学与技术,2003,11(1):42-55. 被引量:151
二级引证文献3
-
1张牮,李建刚,亢玉琼,何向明,刘才.木质素基碳微球的制备及其储锂性能研究[J].化工新型材料,2020,48(9):111-116. 被引量:2
-
2李鹏辉,吴彩文,任建鹏,吴文娟.木质素作为锂离子电池电极材料的研究进展[J].储能科学与技术,2022,11(1):66-77. 被引量:1
-
3姚梅宾.竹木质素高值化利用研究进展[J].广州化工,2022,50(15):35-38.
