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[1]胡秀霞,欧阳楚英.离子迁移动力学的计算材料学研究方法概述及其在锂离子电池材料中的应用[J].江西师范大学学报(自然科学版),2013,(06):551-556.
　HU Xiu-xia,OUYANG Chu-ying.Computational Materials Sciences Methods for Studying Ionic Transport Dynamics and Their Applications in Lithium Ion Battery Materials[J].Journal of Jiangxi Normal University:Natural Science Edition,2013,(06):551-556.
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离子迁移动力学的计算材料学研究方法概述及其在锂离子电池材料中的应用()

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《江西师范大学学报》（自然科学版）[ISSN:1006-6977/CN:61-1281/TN]

卷:
期数:: 2013年06期

页码:: 551-556

栏目:

出版日期:: 2013-12-31

文章信息/Info

Title:: Computational Materials Sciences Methods for Studying Ionic Transport Dynamics and Their Applications in Lithium Ion Battery Materials

作者:: 胡秀霞;欧阳楚英; 江西农业大学理学院,江西南昌330045;江西师范大学物理与通信电子学院,江西南昌330022；江西师范大学物理与通信电子学院,江西南昌,330022

Author(s):: HU Xiu-xia；OUYANG Chu-ying

关键词:: 离子动力学; 计算材料学; 锂离子电池; 扩散

Keywords:: ionic dynamics; computational materials sciences; lithium ion batteries; diffusion

分类号:: TB383

文献标志码:: A

摘要:: 锂离子的迁移及扩散动力学行为是影响锂离子电池倍率性能的最重要的因素之一.计算材料学的发展为模拟锂离子在电池材料中的迁移及扩散提供了各种不同的计算方法,包括蒙特卡罗模拟、分子动力学模拟、绝热轨道方法和弹性能带方法等.讨论了这些方法的特点、适用范围、计算结果的精度和可靠性,并就这些方法在研究锂离子电池材料离子输运行为上的应用实例进行综述.

Abstract:: The Li ion migration and diffusion dynamics is one of the most important factors that affect the rate performance of the Li ion batteries.The development of the computational materials sciences provides various methods to study the Li ion migration and diffusion behaviors in the Li ion battery materials.Those methods include Monte Carlo simulation,molecular dynamics simulation,adiabatic trajectory approximation,and nudged elastic band methods,and so on.The characters of these methods,range of their application,accuracy and reliability of the computational results from those methods have been reviewed,and the typical examples of those methods used in studying the Li ion transport in lithium ion battery materials.

参考文献/References:

[1] Tarascon J M,Armand M.Issues and challenges facing rechargeable lithium batteries [J].Nature,2011,414:359-367.
[2] Delacourt C,Laffont L,Bouchet R,et al.Toward understanding of electrical limitations(electronic ionic)in LiMPO₄(M= Fe,Mn)electrode materials [J].J Electrochem Soc,2005,152:A913-A921.
[3] Delacourt C,Poizot P,Levasseur S,et al.Size effects on carbon-free LiFePO₄ powders:the key to superior energy density [J].Electrochem Solid-State Lett,2006,9(7):A352-A355.
[4] Kamaya N,Homma K,Yamakawa Y,et al.,A lithium superionic conductor [J].Nat Mater,2011,10:682-686.
[5] Kutner R.Chemical diffusion in the lattice gas if non-interacting particles [J].Phys Lett A,1981,81:239-240.
[6] Vineyard G H.Frequency factors and isotope effects in solid state rate processes [J].J Phys Chem Solids,1957,3:121-127.
[7] 裴鹿成,张孝泽.蒙特卡罗方法及其在粒子输运问题中的应用 [M].北京:科学出版社,1980.
[8] Ouyang Chuying,Shi Siqi,Wang Zhaoxiang,et al.Temperature-dependent dynamic properties of Li_xMn₂O₄ from Monte Carlo simulations [J].Chin phys Lett,2005,22(2):489-492.
[9] Ouyang Chuying,Shi Siqi,Wang Zhaoxiang,et al.Experimental and theoretical studies on dynamic properties of Li ions in Li_xMn₂O₄ [J].Solid State Commun,2004,130:501-506.
[10] Van der Ven A,Ceder G,Asta M,et al.First-principles theory of ionic diffusion with nondilute carriers [J].Phys Rev B,2001,64:184307.
[11] Van der Ven A,Ceder G.Lithium diffusion mechanisms in layered intercalation compounds [J].J Power Sources,2001,97-98:529-531.
[12] Ouyang Chuying,Shi Siqi,Wang Zhaoxiang,et al.Effect of Cr doping to the Li ion diffusion in LiFePO₄ [J].J Phys Condensed Matter,2004,16:2265-2272.
[13] Alder B J,Wainwright T E,Studies in molecular dynamics I:general method [J].J Chem Phys,1959,31:459-466.
[14] 马文淦.计算物理学 [M].合肥:中国科技大学出版社,2001.
[15] Tateishi K,Boulay D,Ishizawa N,et al.Structural disorder along the lithium diffusion pathway in cubically stabilized lithium manganese spinel II.Molecular dynamics calculation [J].J Solid State Chem,2003,174:175-181.
[16] Car R,Parrinello M.Unified approach for molecular dynamics and density-functional theory [J].Phys Rev Lett,1985,55:2471-2474.
[17] Zhang Q M,Roland C,Boguslawski P,et al.Ab initio studies of the diffusion barriers at single-height Si(100)steps [J].Phys Rev Lett,1995,75:101-104.
[18] Meunier V,Kephart J,Roland C,Ab initio investigations of lithium diffusion in carbon nanotube systems [J].Phys Rev Lett,2002,88:75506.
[19] Ouyang Chuying,Shi Siqi,Wang Zhaoxiang,et al.First principles study of Li ion diffusion in LiFePO₄ [J].Phys Rev B,69:104303.
[20] Mo Y F,Ong S P,Ceder G.First principles study of the Li₁₀GeP₂S₁₂ lithium super ionic conductor material [J].Chem Mater,2011,24:15-17.
[21] Henkelman G,Jonsson H.Improved tangent estimate in the nudged elastic band method for finding minimum energy paths and saddle points [J].J Chem Phys,2000,113:9978-9985.
[22] Henkelman G,Uberuaga B P,Jonsson H J.A climbing image nudged elastic band method for finding saddle points and minimum energy paths [J].J Chem Phys,2000,113:9901-9904.
[23] Chen Y C,Ouyang Chuying,Song L J,et al.Lithium ion diffusion in Li_{4+xMn₂O₄ [J].Solid State Commun,2004,130:501-506.

[10] Van der Ven A,Ceder G,Asta M,et al.First-principles theory of ionic diffusion with nondilute carriers [J].Phys Rev B,2001,64:184307.

[11] Van der Ven A,Ceder G.Lithium diffusion mechanisms in layered intercalation compounds [J].J Power Sources,2001,97-98:529-531.

[12] Ouyang Chuying,Shi Siqi,Wang Zhaoxiang,et al.Effect of Cr doping to the Li ion diffusion in LiFePO₄ [J].J Phys Condensed Matter,2004,16:2265-2272.

[13] Alder B J,Wainwright T E,Studies in molecular dynamics I:general method [J].J Chem Phys,1959,31:459-466.

[14] 马文淦.计算物理学 [M].合肥:中国科技大学出版社,2001.

[15] Tateishi K,Boulay D,Ishizawa N,et al.Structural disorder along the lithium diffusion pathway in cubically stabilized lithium manganese spinel II.Molecular dynamics calculation [J].J Solid State Chem,2003,174:175-181.

[16] Car R,Parrinello M.Unified approach for molecular dynamics and density-functional theory [J].Phys Rev Lett,1985,55:2471-2474.

[17] Zhang Q M,Roland C,Boguslawski P,et al.Ab initio studies of the diffusion barriers at single-height Si(100)steps [J].Phys Rev Lett,1995,75:101-104.

[18] Meunier V,Kephart J,Roland C,Ab initio investigations of lithium diffusion in carbon nanotube systems [J].Phys Rev Lett,2002,88:75506.

[19] Ouyang Chuying,Shi Siqi,Wang Zhaoxiang,et al.First principles study of Li ion diffusion in LiFePO₄ [J].Phys Rev B,69:104303.

[20] Mo Y F,Ong S P,Ceder G.First principles study of the Li₁₀GeP₂S₁₂ lithium super ionic conductor material [J].Chem Mater,2011,24:15-17.

[21] Henkelman G,Jonsson H.Improved tangent estimate in the nudged elastic band method for finding minimum energy paths and saddle points [J].J Chem Phys,2000,113:9978-9985.

[22] Henkelman G,Uberuaga B P,Jonsson H J.A climbing image nudged elastic band method for finding saddle points and minimum energy paths [J].J Chem Phys,2000,113:9901-9904.

[23] Chen Y C,Ouyang Chuying,Song L J,et al.Lithium ion diffusion in Li_{4+ub>Ti₅O₁₂:From ab initio studies [J].Electrochimica Acta,2011,56:6084-6088.

[24] Yan H J,Wang Zhaoxiang,Xu B,et al.Strain induced enhanced migration of polaron and lithium ion in λ-MnO₂ [J].Funct Mater Lett,2012,5(4):1250037

[25] Shi Siqi,Lu P,Liu Z Y,et al.Direct calculation of Li-Ion transport in the solid electrolyte interphase [J].J Am Chem Soc,2012,134:15476-15487.

[26] 曾祥明,鄢慧君,欧阳楚英.第一性原理计算研究黑磷嵌锂态的动力学性能 [J].物理学报,2012,61:247101.

[27] Frank W,Elsässer C,Fähnle M.Ab initio force-constant method for phonon dispersions in alkali metals [J].Phys Rev Lett,1995,74:1791-1793.}}

备注/Memo

备注/Memo:: 国家自然科学基金(11234013,11064004)；江西省自然科学基金重点课题(20133ACB21010)

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