Li-ion electrode nanocomposites with self-assembled conductive carbon layers

被引:2
|
作者
Molenda, Marcin [1 ]
Swider, Joanna [1 ]
Swetoslawski, Michal [1 ]
Kochanowski, Andrzej [1 ]
机构
[1] Jagiellonian Univ, Dept Chem Technol, Fac Chem, Ingardena 3, PL-30060 Krakow, Poland
来源
POLIMERY | 2017年 / 62卷 / 7-8期
关键词
Li-ion batteries; nanocomposites; carbon coating; conductive carbon layers; hydrophilic polymers; COMPOSITE CATHODE MATERIAL; RECHARGEABLE LITHIUM BATTERIES; ELECTROCHEMICAL PROPERTIES; PERFORMANCE; SYSTEM; CHALLENGES;
D O I
10.14314/polimery.2017.532
中图分类号
O63 [高分子化学(高聚物)];
学科分类号
070305 ; 080501 ; 081704 ;
摘要
Basing on the developed and patented technology the nanocomposite cathodes were successfully prepared in a simple and inexpensive process of wet impregnation of polymer carbon precursor followed by controlled pyrolysis. Conductive carbon layers (CCLs) derived from hydrophilic polymers in solvent-free water mediated process, significantly enhances electrical conductivity of the material and improves its thermal properties, moreover the unique pore structure of CCLs assures easy lithium ions diffusion. Proposed solution allows to explore the potential of active material and improves overall performance of Li-ion batteries.
引用
收藏
页码:532 / 538
页数:7
相关论文
共 50 条
  • [1] Spray-Printed and Self-Assembled Honeycomb Electrodes of Silicon-Decorated Carbon Nanofibers for Li-Ion Batteries
    Lee, Sang Ho
    Li, Kexue
    Huang, Chun
    Evans, Jack D.
    Grant, Patrick S.
    ACS APPLIED MATERIALS & INTERFACES, 2019, 11 (01) : 603 - 612
  • [2] Nanocomposites improve performance of electrode materials for Li-ion batteries
    Predith, Ashley
    MRS BULLETIN, 2010, 35 (10) : 733 - 733
  • [3] Controllable self-assembled mesoporous silicon nanocrystals framework as anode material for Li-ion battery
    Yao, Ran-Ran
    Xie, Lei
    Wu, Ya-Qian
    Meng, Wen-Jie
    He, Yan-Jun
    Zhao, Dong-Lin
    ELECTROCHIMICA ACTA, 2021, 390
  • [4] Self-Assembled TiO2-Graphene Hybrid Nanostructures for Enhanced Li-Ion Insertion
    Wang, Donghai
    Choi, Daiwon
    Li, Juan
    Yang, Zhenguo
    Nie, Zimin
    Kou, Rong
    Hu, Dehong
    Wang, Chongmin
    Saraf, Laxmikant V.
    Zhang, Jiguang
    Aksay, Ilhan A.
    Liu, Jun
    ACS NANO, 2009, 3 (04) : 907 - 914
  • [5] Self-assembled sandwich-like NiO film and its application for Li-ion batteries
    Zhong, J.
    Wang, X. L.
    Xia, X. H.
    Gu, C. D.
    Xiang, J. Y.
    Zhang, J.
    Tu, J. P.
    JOURNAL OF ALLOYS AND COMPOUNDS, 2011, 509 (09) : 3889 - 3893
  • [6] Self-assembled LiFePO4 nanowires with high rate capability for Li-ion batteries
    Peng, Lele
    Zhao, Yu
    Ding, Yu
    Yu, Guihua
    CHEMICAL COMMUNICATIONS, 2014, 50 (67) : 9569 - 9572
  • [7] Synthesis of self-assembled cobalt sulphide coated carbon nanotube and its superior electrochemical performance as anodes for Li-ion batteries
    Huang, Zhi Xiang
    Wang, Ye
    Wong, Jen It
    Shi, Wen Hui
    Yang, Hui Ying
    ELECTROCHIMICA ACTA, 2015, 167 : 388 - 395
  • [8] A carbon composite for the negative electrode of Li-ion batteries
    Churikov, A. V.
    Gridina, N. A.
    Churikova, N. V.
    NEW CARBON BASED MATERIALS FOR ELECTROCHEMICAL ENERGY STORAGE SYSTEMS: BATTERIES, SUPERCAPACITORS AND FUEL CELLS, 2006, 229 : 269 - +
  • [9] In Situ Self-Assembled FeWO4/Graphene Mesoporous Composites for Li-Ion and Na-Ion Batteries
    Wang, Wei
    Hu, Liwen
    Ge, Jianbang
    Hu, Zongqian
    Sun, Haobo
    Sun, He
    Zhang, Haiqiang
    Zhu, Hongmin
    Jiao, Shuqiang
    CHEMISTRY OF MATERIALS, 2014, 26 (12) : 3721 - 3730
  • [10] Self-assembled bacterial nanocomposites
    Freestone, Nigel P.
    CHEMISTRY & INDUSTRY, 2021, 85 (01) : 40 - 41
12345