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Influence of sputtering conditions on structural and electrochemical properties of the Si anode film for lithium secondary batteries

Authors
Joo, S.-H.Lee, S.-R.Cho, W.I.Cho, B.W.
Issue Date
2009
Keywords
Deposition condition; Lithium ion battery; Silicon anode; Sputtering
Citation
Korean Journal of Materials Research, v.19, no.2, pp.73 - 78
Indexed
SCOPUS
KCI
Journal Title
Korean Journal of Materials Research
Volume
19
Number
2
Start Page
73
End Page
78
URI
https://scholar.korea.ac.kr/handle/2021.sw.korea/121858
DOI
10.3740/MRSK.2009.19.2.073
ISSN
1225-0562
Abstract
This study investigated the dependence of the various sputtering conditions (Ar pressure: 2-10 mTorr, Power: 50-150 W) and thickness (50-1200 nm) of Si thin film on the electrochemical properties, microstructural properties and the capacity fading of a Si thin film anode. A Si layer and a Ti buffer layer were deposited on Copper foil by RF-magnetron sputtering. At 10 mTorr, the 50 W sample showed the best capacity of 3323 mAh/g, while the 100 W sample showed the best capacity retention of 91.7%, also at 10 mTorr. The initial capacities and capacity retention in the samples apart from the 50 W sample at 10 mTorr were enhanced as the Ar pressure and power increased. This was considered to be related to the change of the microstructure and the surface morphology by various sputtering conditions. In addition, thinner Si film anodes showed better cycling performance. This phenomenon is caused by the structural stress and peeling off of the Si layer by the high volume change of Si during the charge/discharge process.
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