Reversible storage of Li-ion in nano-Si/SnO2 core-shell nanostructured electrode

被引:33
|
作者
Hwa, Yoon [1 ]
Kim, Won-Sik [1 ]
Yu, Byeong-Chul [1 ]
Kim, HanSu [2 ]
Hong, Seong-Hyeon [1 ]
Sohn, Hun-Joon [1 ]
机构
[1] Seoul Natl Univ, Dept Mat Sci & Engn, Seoul, South Korea
[2] Hanyang Univ, Dept Energy Engn, Seoul 133791, South Korea
来源
JOURNAL OF MATERIALS CHEMISTRY A | 2013年 / 1卷 / 11期
关键词
BATTERY ANODES; LITHIUM STORAGE; INTERMEDIATE PHASES; CHEMICAL DIFFUSION; SILICON NANOWIRES; SI NANOPARTICLES; PERFORMANCE; COMPOSITES; CAPACITY; TIN;
D O I
10.1039/c3ta01310c
中图分类号
O64 [物理化学(理论化学)、化学物理学];
学科分类号
070304 ; 081704 ;
摘要
A core-shell nanostructured composite material consisting of nano-Si as the core and SnO2 as the shell is synthesized by a sol-gel method. The reaction mechanism between Li and a nano-Si/SnO2 core-shell nanostructured electrode is investigated, the partial reversible reaction between Li and SnO2 during the first cycle is identified, and the reactivity of the Si core is investigated by ex situ analyses. The nano-Si/SnO2 core-shell nanostructured electrode shows a reversible capacity of ca. 1000 mA h g(-1) and good cycle retention close to 80% of the first charge capacity over 50 cycles.
引用
收藏
页码:3733 / 3738
页数:6
相关论文
共 50 条
  • [11] Actual pseudocapacity for Li ion storage in tunable core-shell electrode architectures
    Xiong, Tuzhi
    Gao, Yingxia
    Huang, Peng
    Huang, Yongchao
    Yang, Hao
    Balogun, M-Sadeeq
    ECOMAT, 2022, 4 (05)
  • [12] Rod-Like SnO2/SnS Mosaics for Reversible Large-Capacity Li-Ion Storage
    Lin, Xueyu
    Dong, Chenlong
    Tang, Yufeng
    Huang, Fuqiang
    CHEMELECTROCHEM, 2022, 9 (08)
  • [13] Effect of oxide layer thickness to nano-Si anode for Li-ion batteries
    Yu, Byeong-Chul
    Hwa, Yoon
    Park, Cheol-Min
    Kim, Jae-Hun
    Sohn, Hun-Joon
    RSC ADVANCES, 2013, 3 (24): : 9408 - 9413
  • [14] Nanostructured SnO2@TiO2 Core-Shell Composites: A High-Rate Li-ion Anode Material Usable without Conductive Additives
    Ji, Ge
    Ding, Bo
    Ma, Yue
    Lee, Jim Yang
    ENERGY TECHNOLOGY, 2013, 1 (10) : 567 - 572
  • [15] SnO2/NiO core-shell nanobelts and their high reversible lithium storage capacity arising from synergistic effect
    Xing, Li-Li
    Cui, Chun-Xiao
    He, Bin
    Nie, Yu-Xin
    Deng, Ping
    Xue, Xin-Yu
    MATERIALS LETTERS, 2013, 96 : 158 - 161
  • [16] Synergistic Effect of SnO2/ZnWO4 Core-Shell Nanorods with High Reversible Lithium Storage Capacity
    Xing, Li-Li
    Yuan, Shuang
    He, Bin
    Zhao, Ya-Yu
    Wu, Xiao-Ling
    Xue, Xin-Yu
    CHEMISTRY-AN ASIAN JOURNAL, 2013, 8 (07) : 1530 - 1535
  • [17] THE SnO2 NANOTUBE WITH CNT CORE STRUCTURE (SnO2@ VOID@CNT) AND GRAPHENE COMPOSITE ELECTRODE FOR LI-ION BATTERIES
    Alaf, Mirac
    THERMAL SCIENCE, 2023, 27 (4B): : 3217 - 3228
  • [18] Engineering of Silicon Core-Shell Structures for Li-ion Anodes
    Rage, Bastien
    Delbegue, Diane
    Louvain, Nicolas
    Lippens, Pierre-Emmanuel
    CHEMISTRY-A EUROPEAN JOURNAL, 2021, 27 (66) : 16275 - 16290
  • [19] Constructing Novel Si@SnO2 Core-Shell Heterostructures by Facile Self-Assembly of SnO2 Nanowires on Silicon Hollow Nanospheres for Large, Reversible Lithium Storage
    Zhou, Zheng-Wei
    Liu, Yi-Tao
    Xie, Xu-Ming
    Ye, Xiong-Ying
    ACS APPLIED MATERIALS & INTERFACES, 2016, 8 (11) : 7092 - 7100
  • [20] Critical SiO2 nanolayers for improving corrosion resistance and lithium storage performances of core-shell nano-Si/C composites
    Xie, Jian
    Zhang, Haiyan
    Chu, Junwei
    Shen, Wei
    Chen, Rong
    Yu, Jiale
    JOURNAL OF ALLOYS AND COMPOUNDS, 2018, 769 : 1072 - 1079
12345