Nanoscience Supporting the Research on the Negative Electrodes of Li-Ion Batteries

被引:17
|
作者
Mauger, Alain [1 ]
Julien, Christian M. [2 ]
机构
[1] Univ Paris 06, Sorbonne Univ, Inst Mineral & Phys Mat Condensee, F-75005 Paris, France
[2] Univ Paris 06, Sorbonne Univ, Physicochim Electrolyte & Nanosyst Interfaciaux P, UMR 8234, F-75005 Paris, France
来源
NANOMATERIALS | 2015年 / 5卷 / 04期
关键词
nano-materials; negative electrodes; Li-ion batteries; LITHIUM SECONDARY BATTERIES; THIN-FILM ANODE; LONG CYCLE LIFE; ATOMIC LAYER DEPOSITION; HIGH-POWER BATTERY; HIGH-PERFORMANCE; POROUS SILICON; HIGH-CAPACITY; CARBON NANOTUBE; ENERGY-STORAGE;
D O I
10.3390/nano5042279
中图分类号
O6 [化学];
学科分类号
0703 ;
摘要
Many efforts are currently made to increase the limited capacity of Li-ion batteries using carbonaceous anodes. The way to reach this goal is to move to nano-structured material because the larger surface to volume ratio of particles and the reduction of the electron and Li path length implies a larger specific capacity. Additionally, nano-particles can accommodate such a dilatation/contraction during cycling, resulting in a calendar life compatible with a commercial use. In this review attention is focused on carbon, silicon, and Li4Ti5O12 materials, because they are the most promising for applications.
引用
收藏
页码:2279 / 2301
页数:23
相关论文
共 50 条
  • [21] Electrochemomechanics of Electrodes in Li-Ion Batteries: A Review
    Xu, Rong
    Zhao, Kejie
    JOURNAL OF ELECTROCHEMICAL ENERGY CONVERSION AND STORAGE, 2016, 13 (03)
  • [22] Modeling fractal electrodes for Li-ion batteries
    Teixidor, G. Turon
    Park, B. Y.
    Mukherjee, P. P.
    Kang, Q.
    Madou, M. J.
    ELECTROCHIMICA ACTA, 2009, 54 (24) : 5928 - 5936
  • [23] Alloy Negative Electrodes for Li-Ion Batteries (vol 114, pg 11444, 2014)
    Obrovac, M. N.
    Chevrier, V. L.
    CHEMICAL REVIEWS, 2015, 115 (04) : 2043 - 2043
  • [24] Sodium carboxymethyl cellulose - A potential binder for Si negative electrodes for Li-ion batteries
    Li, Jing
    Lewis, R. B.
    Dahn, J. R.
    ELECTROCHEMICAL AND SOLID STATE LETTERS, 2007, 10 (02) : A17 - A20
  • [25] Combining composition graded positive and negative electrodes for higher performance Li-ion batteries
    Cheng, Chuan
    Drummond, Ross
    Duncan, Stephen R.
    Grant, Patrick S.
    JOURNAL OF POWER SOURCES, 2020, 448 (448)
  • [26] Recent findings and prospects in the field of pure metals as negative electrodes for Li-ion batteries
    Larcher, Dominique
    Beattie, Shane
    Morcrette, Mathieu
    Edström, Kristina
    Jumas, Jean-Claude
    Tarascon, Jean-Marie
    Journal of Materials Chemistry, 2007, 17 (36) : 3759 - 3772
  • [27] Interface and Safety Properties of Phosphorus-Based Negative Electrodes in Li-Ion Batteries
    Marino, C.
    El Kazzi, M.
    Berg, E. J.
    He, M.
    Villevieille, C.
    CHEMISTRY OF MATERIALS, 2017, 29 (17) : 7151 - 7158
  • [28] Best Practices for Mitigating Irreversible Capacity Loss of Negative Electrodes in Li-Ion Batteries
    Aravindan, Vanchiappan
    Lee, Yun-Sung
    Madhavi, Srinivasan
    ADVANCED ENERGY MATERIALS, 2017, 7 (17)
  • [29] Al-Si thin-film negative electrodes for Li-ion batteries
    Fleischauer, M. D.
    Obrovac, M. N.
    Dahn, J. R.
    JOURNAL OF THE ELECTROCHEMICAL SOCIETY, 2008, 155 (11) : A851 - A854
  • [30] In situ optical observations of particle motion in alloy negative electrodes for Li-ion batteries
    Timmons, A
    Dahn, JR
    JOURNAL OF THE ELECTROCHEMICAL SOCIETY, 2006, 153 (06) : A1206 - A1210
12345