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硅功能化石墨烯负极材料的粗粒模型

惠治鑫 贺鹏飞 戴瑛 吴艾辉

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硅功能化石墨烯负极材料的粗粒模型

惠治鑫, 贺鹏飞, 戴瑛, 吴艾辉

Coarse-grain model of silicon functionalized graphene as anode material for lithium ion batteries

Hui Zhi-Xin, He Peng-Fei, Dai Ying, Wu Ai-Hui
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  • 硅功能化石墨烯(硅化烯)作为锂离子电池的负极材料, 一旦发生分层或粉化等损伤现象, 会严重地降低材料的电子输运能力和储锂容量, 减少电池的使用寿命, 因此要求负极材料具有较强的力学可靠性. 考虑到传统分子动力学方法的模拟尺度很难达到硅化烯负极材料的真实尺度, 首先采用Tersoff 势函数和Lennard-Jones 势函数建立了多种硅化烯的全原子数值模型, 计算材料的各种弹性模量和吸附能; 然后采用珠子-弹簧结构, 根据力学平衡条件和能量守恒定律, 结合全原子模型的计算结果, 建立了硅化烯粗粒模型及其系统的能量方程; 最后, 通过对比石墨烯粗粒模型与其全原子模型的拉伸性能, 验证了硅化烯粗粒模型的有效性.
    The electronic transport, the storage capacity, and the service life of the anode material for lithium ion batteries will be reduced seriously in the event of the material layering or cracking, so the anode material must have strong mechanical reliability. Firstly, in view of the traditional molecular dynamics limited by the geometric scales of the model of silicon functionalized graphenen (SFG) as lithium ion battery anode material, some full atomic models of SFG are established by using Tersoff potential and Lennard-Jones potential, and used to calculate the modulus and the adhesion properties. What is more, according to the mechanical equilibrium condition and energy conservation and by combining with calculations from full atomic model through adopting the bead-spring structure, the SFG coarse-grain model and its system energy reservation equation are established. Finally, the validity of the SFG coarse-grain model is verified by comparing the tensile property of coarse-grain model with full atoms model.
    • 基金项目: 中央高校基本科研业务费专项基金、上海市自然科学基金(批准号: 11ZR1439100)、宁夏自然科学基金(批准号: NZ14273)和宁夏师范学院科研项目(批准号: NXSFZD1514)资助的课题.
    • Funds: Project supported by the Fundamental Research Funds for the Central Universities of Ministry of Education of China, the Natural Science Foundation of Shanghai, China (Grant No. 11ZR1439100), the Natural Science Foundation of Ningxia, China (Grant No. NZ14273), and the Science Research Project of Ningxia Normal University, China (Grant No. NXSFZD1514).
    [1]

    Jafta C J, Ozoemena K I, Mathe M K, Roos W D 2012 Electrochim. Acta 85 411

    [2]

    Wang J M, Hu J P, Liu C H, Shi S Q, Ouyang C Y 2012 Physics 41 95 (in Chinese) [王佳民, 胡军平, 刘春华, 施思齐, 欧阳楚英 2012 物理 41 95]

    [3]

    Hui Z X, He P F, Dai Y, Wu A H 2014 J. Nanoengineering and Nanosystems 29 28

    [4]

    Hui Z X, He P F, Dai Y, Wu A H 2014 Acta Phys. Sin. 63 074401 (in Chinese) [惠治鑫, 贺鹏飞, 戴瑛, 吴艾辉 2014 物理学报 63 074401]

    [5]

    Zhao X, Hayner C M, Kung M C, Kung H H 2011 Adv. Energy Mater. 1 1079

    [6]

    Wu Y P, Yuan X Y, Dong C, Duan J Y 2012 Lithium-ion Batteries-Application and Practice (Ver.2) ( Beijing: Chemical Industry Press) p11 (in Chinese) [吴宇平, 袁翔云, 董超, 段冀渊 2012 锂离子电池\pzh 应用与实践(第二版)(化学工业出版社) 第11页]

    [7]

    Kumar A, Zhou C 2010 Acs Nano 4 11

    [8]

    De S, Coleman J N 2010 Acs Nano 4 2713

    [9]

    Hou X H, Hu S J, Shi L 2010 Acta Phys. Sin. 59 2109 (in Chinese) [侯贤华, 胡社军, 石璐 2010 物理学报 59 2109]

    [10]

    Plimpton S 1995 J. Comput. Phys. 117 1

    [11]

    Tersoff J 1988 Phys. Rev. B 37 6991

    [12]

    Jones J E 1924 Proc. Roy. Soc. A 106 463

    [13]

    Allen M P, Tildesley D J 1989 Computer Simulation of Liquids (London: Oxford University Press) p233

    [14]

    Nosé S 1984 Mol. Phys. 52 255

    [15]

    Hoover W G 1985 Phys. Rev. A 31 1695

    [16]

    Cranford S, Buehler M J 2011 Modell. Simul. Mater. Sci. Eng. 19 054003

    [17]

    Cranford S, Sen D, Buehler M J 2009 Appl. Phys. Lett. 95 123121

    [18]

    Han T W, He P F, Wang J, Zheng B L, Wu A H 2009 Sci. Sin. G: Phys. Mech. Astron. 39 1312 (in Chinese) [韩同伟, 贺鹏飞, 王健, 郑百林, 吴艾辉 2009 中国科学 G辑 39 1312]

    [19]

    Zhou J, Huang R 2008 J. Mech. Phys. Solids 56 1609

    [20]

    Yang X, He P, Gao H 2011 Nano Res. 4 1191

    [21]

    Buehler M J 2006 J. Mater. Res. 21 2855

    [22]

    Timoshenko S, Gere J 1978 Mechanics of Materials (Beijing: Science Press) p36 (in Chinese) [铁摩辛柯, 盖尔 1978 材料力学 (科学出版社) 第36页]

  • [1]

    Jafta C J, Ozoemena K I, Mathe M K, Roos W D 2012 Electrochim. Acta 85 411

    [2]

    Wang J M, Hu J P, Liu C H, Shi S Q, Ouyang C Y 2012 Physics 41 95 (in Chinese) [王佳民, 胡军平, 刘春华, 施思齐, 欧阳楚英 2012 物理 41 95]

    [3]

    Hui Z X, He P F, Dai Y, Wu A H 2014 J. Nanoengineering and Nanosystems 29 28

    [4]

    Hui Z X, He P F, Dai Y, Wu A H 2014 Acta Phys. Sin. 63 074401 (in Chinese) [惠治鑫, 贺鹏飞, 戴瑛, 吴艾辉 2014 物理学报 63 074401]

    [5]

    Zhao X, Hayner C M, Kung M C, Kung H H 2011 Adv. Energy Mater. 1 1079

    [6]

    Wu Y P, Yuan X Y, Dong C, Duan J Y 2012 Lithium-ion Batteries-Application and Practice (Ver.2) ( Beijing: Chemical Industry Press) p11 (in Chinese) [吴宇平, 袁翔云, 董超, 段冀渊 2012 锂离子电池\pzh 应用与实践(第二版)(化学工业出版社) 第11页]

    [7]

    Kumar A, Zhou C 2010 Acs Nano 4 11

    [8]

    De S, Coleman J N 2010 Acs Nano 4 2713

    [9]

    Hou X H, Hu S J, Shi L 2010 Acta Phys. Sin. 59 2109 (in Chinese) [侯贤华, 胡社军, 石璐 2010 物理学报 59 2109]

    [10]

    Plimpton S 1995 J. Comput. Phys. 117 1

    [11]

    Tersoff J 1988 Phys. Rev. B 37 6991

    [12]

    Jones J E 1924 Proc. Roy. Soc. A 106 463

    [13]

    Allen M P, Tildesley D J 1989 Computer Simulation of Liquids (London: Oxford University Press) p233

    [14]

    Nosé S 1984 Mol. Phys. 52 255

    [15]

    Hoover W G 1985 Phys. Rev. A 31 1695

    [16]

    Cranford S, Buehler M J 2011 Modell. Simul. Mater. Sci. Eng. 19 054003

    [17]

    Cranford S, Sen D, Buehler M J 2009 Appl. Phys. Lett. 95 123121

    [18]

    Han T W, He P F, Wang J, Zheng B L, Wu A H 2009 Sci. Sin. G: Phys. Mech. Astron. 39 1312 (in Chinese) [韩同伟, 贺鹏飞, 王健, 郑百林, 吴艾辉 2009 中国科学 G辑 39 1312]

    [19]

    Zhou J, Huang R 2008 J. Mech. Phys. Solids 56 1609

    [20]

    Yang X, He P, Gao H 2011 Nano Res. 4 1191

    [21]

    Buehler M J 2006 J. Mater. Res. 21 2855

    [22]

    Timoshenko S, Gere J 1978 Mechanics of Materials (Beijing: Science Press) p36 (in Chinese) [铁摩辛柯, 盖尔 1978 材料力学 (科学出版社) 第36页]

计量
  • 文章访问数:  5445
  • PDF下载量:  347
  • 被引次数: 0
出版历程
  • 收稿日期:  2015-01-13
  • 修回日期:  2015-03-11
  • 刊出日期:  2015-07-05

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