N/O Co-doped Hollow Carbon Nanocapsules-Supported Ge Nanoparticles as Anodes for Excellent Performance Lithium-ion batteries

被引:0
作者
Zhang, Dacheng [1 ,2 ]
Wang, Linlin [2 ]
Wu, Qian [2 ]
Yang, Yujie [2 ]
Xu, Jingli [1 ]
机构
[1] Shanghai Univ Engn Sci, Sch Mat Engn, Shanghai 201620, Peoples R China
[2] Shanghai Univ, Coll Sci, Inst Sustainable Energy, 99 Shangda Rd, Shanghai 200444, Peoples R China
来源
INTERNATIONAL JOURNAL OF ELECTROCHEMICAL SCIENCE | 2021年 / 16卷 / 10期
基金
中国国家自然科学基金;
关键词
Ge-N/O-CNCs; LIBs; high capacity; cycling stability; FACILE SYNTHESIS; HIGH-CAPACITY; AT-C; NANOCOMPOSITE; NANOFIBERS; GERMANIUM; COMPOSITES; STORAGE;
D O I
10.20964/2021.10.38
中图分类号
O646 [电化学、电解、磁化学];
学科分类号
081704 ;
摘要
In this work, a novel N/O Co-doped hollow carbon nanocapsule-supported Ge nanoparticles nanocomposite (Ge-N/O-CNCs) was successfully prepared by a facile heating reflux method. N/O codoped hollow carbon nanocapsule-supported Ge nanoparticles not only relieve the agglomeration of Ge nanoparticles and control the volume expansion, but also facilitate the rapid transmission of electrons. In LIBs, the unique Ge-N/O-CNCs nanoarchitecture was used as the anode material. At a high current density of 1 A g(-1), it remains a stable specific capacity of 448 mAh g(-1) remained after 100 cycles. Additionally, even at 3.2 A g(-1), this material exhibited a high-rate specific capacity of 350 mAh g(-1).
引用
收藏
页码:1 / 10
页数:10
相关论文
共 31 条
  • [1] Oleylamine-assisted hydrothermal synthesis of ultrasmall NbOx nanoparticles and their in situ conversion to NbOx@C with highly reversible lithium storage
    Cai, Yong
    Li, Xiu
    Wang, Lei
    Gao, Haiyan
    Zhao, Yongnan
    Ma, Jianmin
    [J]. JOURNAL OF MATERIALS CHEMISTRY A, 2015, 3 (04) : 1396 - 1399
  • [2] Synthesis of Ge/C composites as anodes using glucose as a reductant and carbon source for lithium-ion batteries
    Choe, Hui-Seon
    Kim, Si-Jin
    Kim, Min-Chul
    Kim, Da-Mi
    Lee, Gyu-Ho
    Han, Sand-Beom
    Kwak, Da-Hee
    Park, Kyung-Won
    [J]. RSC ADVANCES, 2016, 6 (77): : 72926 - 72932
  • [3] A Germanium-Carbon Nanocomposite Material for Lithium Batteries
    Cui, Guanglei
    Gu, Lin
    Zhi, Linjie
    Kaskhedikar, N.
    van Aken, Peter A.
    Muellen, Klaus
    Maier, Joachim
    [J]. ADVANCED MATERIALS, 2008, 20 (16) : 3079 - 3083
  • [4] A new look at the solid electrolyte interphase on graphite anodes in Li-ion batteries
    Edström, K
    Herstedt, M
    Abraham, DP
    [J]. JOURNAL OF POWER SOURCES, 2006, 153 (02) : 380 - 384
  • [5] Advanced germanium nanoparticle composite anodes using single wall carbon nanotube conductive additives
    Forney, M. W.
    Dzara, M. J.
    Doucett, A. L.
    Ganter, M. J.
    Staub, J. W.
    Ridgley, R. D.
    Landi, B. J.
    [J]. JOURNAL OF MATERIALS CHEMISTRY A, 2014, 2 (35) : 14528 - 14535
  • [6] Novel Germanium/Polypyrrole Composite for High Power Lithium-ion Batteries
    Gao, Xuanwen
    Luo, Wenbin
    Zhong, Chao
    Wexler, David
    Chou, Shu-Lei
    Liu, Hua-Kun
    Shi, Zhicong
    Chen, Guohua
    Ozawa, Kiyoshi
    Wang, Jia-Zhao
    [J]. SCIENTIFIC REPORTS, 2014, 4
  • [7] Facile synthesis of Ge/C nanocomposite as superior battery anode material
    Guo, Wei
    Mei, Lin
    Feng, Qingqin
    Ma, Jianmin
    [J]. MATERIALS CHEMISTRY AND PHYSICS, 2015, 168 : 6 - 9
  • [8] Stable Li-ion storage in Ge/N-doped carbon microsphere anodes
    Han, Lijing
    Tang, Jing
    Yang, Rong
    Wei, Qiaohua
    Wei, Mingdeng
    [J]. NANOSCALE, 2021, 13 (10) : 5307 - 5315
  • [9] Kim DM, 2016, INT J ELECTROCHEM SC, V11, P3591
  • [10] From molecular germanates to microporous Ge@C via twin polymerization
    Kitschke, Philipp
    Walter, Marc
    Rueffer, Tobias
    Lang, Heinrich
    Kovalenko, Maksym V.
    Mehring, Michael
    [J]. DALTON TRANSACTIONS, 2016, 45 (13) : 5741 - 5751
1234