Three-dimensional silicon/carbon core-shell electrode as an anode material for lithium-ion batteries

Authors
Kim, Jung SubPfleging, WilhelmKohler, RobertSeifert, Hans JuergenKim, Tae YongByun, DongjinJung, Hun-GiChoi, WonchangLee, Joong Kee
Issue Date
2015-04-01
Publisher
ELSEVIER SCIENCE BV
Citation
JOURNAL OF POWER SOURCES, v.279, pp.13 - 20
Abstract
Practical application of silicon anodes for lithium-ion batteries has been mainly hindered because of their low electrical conductivity and large volume change (ca. 300%) occurring during the lithiation and delithiation processes. Thus, the surface engineering of active particles (material design) and the modification of electrode structure (electrode design) of silicon are necessary to alleviate these critical limiting factors. Silicon/carbon core-shell particles (Si@C, material design) are prepared by the thermal decomposition and subsequent three-dimensional (3D) electrode structures (electrode design) with a channel width of 15 mu m are incorporated using the laser ablation process. The electrochemical characteristics of 3D Si@C used as the anode material for lithium-ion batteries are investigated to identify the effects of material and electrode design. By the introduction of a carbon coating and the laser structuring, an enhanced performance of Si anode materials exhibiting high specific capacity (>1200 mAh g(-1) over 300 cycles), good rate capability (1170 mAh g(-1) at 8 A g(-1)), and stable cycling is achieved. The morphology of the core-shell active material combined with 3D channel architecture can minimize the volume expansion by utilizing the void space during the repeated cycling.
Keywords
FABRICATION; CELLS; FABRICATION; CELLS; Three-dimensional anode; Ultrafast laser; Laser structuring; Thermal decomposition; Surface engineering
ISSN
0378-7753
URI
https://pubs.kist.re.kr/handle/201004/125558
DOI
10.1016/j.jpowsour.2014.12.041
Appears in Collections:
KIST Article > 2015
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