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掺杂金属对天然鳞片石墨电化学嵌/脱锂性能的影响 被引量:4

Effect of metal particles on electrochemical intercalation/deintercalation Li performances of natural flake graphite
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摘要 研究化学镀Ni、Cu和混合掺杂Zn处理后天然鳞片石墨的电化学嵌/脱锂性能。结果表明:金属微粒Ni、Cu与Zn的掺入可有效改善天然鳞片石墨的循环性能与大倍率充放电特性,金属微粒有效降低石墨电极内阻、保证石墨颗粒之间紧密的电接触是掺入金属微粒后石墨大倍率充放电性能得到改善的重要原因之一。Ni与Cu微粒改善石墨循环性能的机理与Zn的不同,Cu、Ni通过阻止溶剂化锂离子嵌入维持石墨结构稳定性,来达到提高材料循环性能的目的;金属Zn改善石墨循环性能的原因则可能是嵌锂过程中,Zn锂化所形成Li-Zn合金维持材料表面所形成SEI膜的稳定性。 The intercalation/deintercalation Li performances of natural flake graphite (NFG) doped with metal particles, such as Ni, Cu and Zn, were studied. The experimental results show that the metal particles are effective to improve cycling behavior and rate performance of NFG. One of the main reasons for these phenomena is that the metal particles can effectively reduce the graphite electrode resistance and accordingly ensure intimate contact between graphite particles The mechanism of that Ni and Cu can improve the cycling behavior of NFG is different from that of Zn. The electroless Ni and Cu on the surface of graphite can effectively prevent the intercalation of solvated Li ion and maintain the structure stability of graphite, thus improve the cycling behavior. The reason that Zn doping improves cycling behavior of graphite is probably for the formation of Zn-Li alloy from the Zn lithiation reaction during the intercalation process which is beneficial to form stable SEI film on the surface of carbon electrode.
作者 杨娟 赖延清 李劼 邹幽兰 唐晶晶 周向阳
机构地区 中南大学冶金科学与工程学院
出处 《中国有色金属学报》 EI CAS CSCD 北大核心 2012年第6期1667-1673,共7页 The Chinese Journal of Nonferrous Metals
基金 国家自然科学基金资助项目(50974136 51074185)
关键词 天然鳞片石墨 金属微粒掺杂 锂离子二次电池 嵌/脱锂性能 natural flake graphite metal particles doping lithium ion secondary battery intercalation/deintercalation Li performance
分类号 O646 [理学—物理化学]
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参考文献14

  • 1WU Y P, RAHM E, HOLZE R. Carbon anode materials for lithium ion batteries[J]. J Power Sources, 2003, 114(2): 228-236.
  • 2NAKAJIMA T. Surface modification of carbon anodes for secondary lithium battery by fluorination[J]. J Fluorine Chem, 2007, 128: 277-284.
  • 3FU L J, LIU H, LI C, WU Y P, RAHM E, HOLZE T, WU H Q, Surface modifications of electrode materials for lithium ion batteries[J]. Solid State Sci, 2006, 8: 113-128.
  • 4LU Mi, TIAN Yaa-yan, YANG Yong. A comparison of electrochemical performance of natural graphite sulfurized by ball-milling and heat-treating as an anode for lithium ion batteries[J]. Eleetrochimica Aeta, 2009, 54(27): 6792-6796.
  • 5JOONGPYO S, KATHRYN A. Striebel electrochemical characterization of thermally oxidized natural graphite anodes in lithium-ion batteries[J]. J Power Sources, 2007, 164(2): 862-867.
  • 6NOZAKI H, NAGAOKA K, HOSHI K, OHTA N, INAGAKI M. Carbon-coated graphite for anode of lithium ion rechargeable batteries: Carbon coating conditions and precursors[J]. J Power Sources, 2009, 194(1): 486-493.
  • 7ZOU Lin, KANG Fei-yu, ZHENG Yong-ping, SHEN Wan-ci. Modified natural flake graphite with high cycle performance as anode material in lithium ion batteries[J]. Electrochimica Acta, 2009, 54: 3930-3934.
  • 8周向阳,胡国荣,李庆余,刘业翔.化学镀银鳞片石墨作锂离子电池负极材料[J].电池,2002,32(5):255-257. 被引量:13
  • 9WINTER M, NOVAK P, MONNIER A. Graphites for lithium-ion cells: The correlation of the first-cycle charge loss with the brunauer-emmett-teller surface area[J]. J Electrochem Soc, 1998, 145(2): 428-436.
  • 10ZHAO Li-wei, WATANABE I, DOI T, OKADA S, YAMAKI J. TG-MS analysis of solid electrolyte interphase (SEI) on graphite negative-electrode in lithium-ion batteries[J]. J Power Sources, 2006, 161(2): 1275-1280.

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中国有色金属学报
2012年 第6期

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