Nitrogen-doped Carbon Coated Porous Silicon as High Performance Anode Material for Lithium-Ion Batteries

Authors
Jeong, Min-GiIslam, MobinulDu, Hoang LongLee, Yoon-SungSun, Ho-HyunChoi, WonchangLee, Joong KeeChung, Kyung YoonJung, Hun-Gi
Issue Date
2016-08-10
Publisher
PERGAMON-ELSEVIER SCIENCE LTD
Citation
ELECTROCHIMICA ACTA, v.209, pp.299 - 307
Abstract
An effective approach to generate nitrogen-doped carbon coating layer on porous silicon (CN@P-Si), one of most promising anode materials for lithium-ion batteries, was addressed in this study to minimize their intrinsic drawbacks of low electrical conductivity and large volume expansion. The resulting enhanced electrochemical performance of the cell using the prepared CN@P-Si materials is attributed to the suppression of volume expansion and formation of the stable solid electrolyte interface by the combination of the porous structure and nitrogen-doped carbon coating layer during the repeated lithiation and delithiation process. After 100 cycles at 0.8 A g(-1), the capacity retention is 82% in contrast to 69% for the non-coated samples. Even at the increased discharge current of 20 A g(-1), the cell with CN@P-Si electrode delivers a high specific capacity of 1904 mAh g(-1). After 100 cycles, the P-Si electrode with pores shows huge pulverization; in contrast the CN@P-Si electrode remains intact with reasonably low volume expansion. Nitrogen-doped carbon coating layer on porous Si surface successfully suppress the pulverization of CN@P-Si electrode owing to its shielding capability. These results suggest that CN@P-Si is an attractive candidate for a high-capacity anode for lithium-ion batteries. (C) 2016 Elsevier Ltd. All rights reserved.
Keywords
HIGH-CAPACITY; GRAPHENE; STORAGE; NANOWIRES; NANOTUBES; TEMPERATURE; COMPOSITE; HIGH-CAPACITY; GRAPHENE; STORAGE; NANOWIRES; NANOTUBES; TEMPERATURE; COMPOSITE; Silicon; Anode; Nitrogen-doped carbon; Lithium-ion battery
ISSN
0013-4686
URI
https://pubs.kist.re.kr/handle/201004/123789
DOI
10.1016/j.electacta.2016.05.080
Appears in Collections:
KIST Article > 2016
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