New electrochemical process for the in situ preparation of metal electrodes for lithium-ion batteries

被引:6
|
作者
Hassoun, J. [1 ]
Panero, S. [1 ]
Scrosati, B. [1 ]
机构
[1] Univ Roma La Sapienza, Dept Chem, I-00185 Rome, Italy
来源
ELECTROCHEMISTRY COMMUNICATIONS | 2007年 / 9卷 / 06期
关键词
in situ synthesis; tin deposition; lithium-tin alloy; anode; lithium-ion cells;
D O I
10.1016/j.elecom.2007.01.025
中图分类号
O646 [电化学、电解、磁化学];
学科分类号
081704 ;
摘要
A new, in situ experimental procedure, which allows in a single step the formation of a metal, e.g., tin, and its operation as reversible alloying-de-alloying electrode in lithium-ion cells, is here reported. The results demonstrate that this procedure has unique advantages not only in terms of fabrication simplicity but also of electrode response. (c) 2007 Elsevier B.V. All rights reserved.
引用
收藏
页码:1239 / 1241
页数:3
相关论文
共 50 条
  • [1] Scanning electrochemical cell microscopy for visualization and local electrochemical activities of lithium-ion (de) intercalation process in lithium-ion batteries electrodes
    Kumatani, Akichika
    Takahashi, Yasufumi
    Miura, Chiho
    Ida, Hiroki
    Inomata, Hirotaka
    Shiku, Hitoshi
    Munakata, Hirokazu
    Kanamura, Kiyoshi
    Matsue, Tomokazu
    SURFACE AND INTERFACE ANALYSIS, 2019, 51 (01) : 27 - 30
  • [2] Design and preparation of thick electrodes for lithium-ion batteries
    Shao, Jiacheng
    Zheng, Junsheng
    Xing, Guangguang
    Lu, Yanyan
    Lv, Xinrong
    Zhang, Cunman
    JOURNAL OF ENERGY STORAGE, 2024, 103
  • [3] Electrochemical properties of macroporous carbon for electrodes of lithium-ion batteries
    Take, H
    Kajii, H
    Yoshino, K
    SYNTHETIC METALS, 2001, 121 (1-3) : 1313 - 1314
  • [4] Characterization of the calendering process for compaction of electrodes for lithium-ion batteries
    Meyer, Chris
    Bockholt, Henrike
    Haselrieder, Wolfgang
    Kwade, Arno
    JOURNAL OF MATERIALS PROCESSING TECHNOLOGY, 2017, 249 : 172 - 178
  • [5] Electrochemical Performance of Flexible Electrodes for Supercapacitors, Lithium-Ion Batteries, and Sodium-Ion Batteries
    Xiao, Zhiyuan
    Li, Xinyi
    Pan, Jiarui
    Qi, Meili
    Guo, Xiaoling
    CHEMISTRYSELECT, 2024, 9 (35):
  • [6] Advanced in situ methods for the characterization of practical electrodes in lithium-ion batteries
    Novák, P
    Panitz, JC
    Joho, F
    Lanz, M
    Imhof, R
    Coluccia, M
    JOURNAL OF POWER SOURCES, 2000, 90 (01) : 52 - 58
  • [7] On the use of transition metal oxysalts as conversion electrodes in lithium-ion batteries
    Jose Aragon, Maria
    Leon, Bernardo
    Perez Vicente, Carlos
    Tirado, Jose L.
    JOURNAL OF POWER SOURCES, 2009, 189 (01) : 823 - 827
  • [8] Metal-oxidized graphite composite electrodes for lithium-ion batteries
    Nobili, F
    Dsoke, S
    Mecozzi, T
    Marassi, R
    ELECTROCHIMICA ACTA, 2005, 51 (03) : 536 - 544
  • [9] Metal-graphite composits as materials for electrodes of lithium-ion batteries
    Matzui, Ludmyla
    Semen'ko, Mykhailo
    Babich, Mykol
    Kapitanchuk, Leonid
    NEW CARBON BASED MATERIALS FOR ELECTROCHEMICAL ENERGY STORAGE SYSTEMS: BATTERIES, SUPERCAPACITORS AND FUEL CELLS, 2006, 229 : 345 - +
  • [10] Transition metal vanadates electrodes in lithium-ion batteries: A holistic review
    Xia, Dawei
    Gao, Hongpeng
    Li, Mingqian
    Gong, Feng
    Li, Ming
    ENERGY STORAGE MATERIALS, 2021, 35 : 169 - 191
12345