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Electrochemical properties of a Si thin-film anode deposited on a TiNi shape-memory-alloy thin filmopen accessElectrochemical properties of a Si thin-film anode deposited on a TiNi shape-memory-alloy thin film

Other Titles
Electrochemical properties of a Si thin-film anode deposited on a TiNi shape-memory-alloy thin film
Authors
배주현NYAMAA OYUNBAYAR서덕현양정현남태현허선철정효민노정필
Issue Date
2020
Publisher
한국마린엔지니어링학회
Keywords
TiNi shape-memory alloy; Thin films; Si anode; Stress absorption effect
Citation
한국마린엔지니어링학회지, v.44, no.6, pp 436 - 440
Pages
5
Indexed
KCI
Journal Title
한국마린엔지니어링학회지
Volume
44
Number
6
Start Page
436
End Page
440
URI
https://scholarworks.gnu.ac.kr/handle/sw.gnu/7437
DOI
10.5916/jamet.2020.44.6.436
ISSN
2234-7925
2765-4796
Abstract
Advances in electronics have generated an increasing demand for smaller, higher-capacity lithium-ion batteries, which will require alternatives to graphite as the battery anode material. To this end, a TiNi shape-memory-alloy (SMA) thin film was fabricated on Cu foil by DC magnetron sputtering. Si thin films were then deposited at a low temperature (LT) of 298 K (Si(LT)/TiNi/Cu) and a high temperature (HT) of 853 K (Si(HT)/TiNI/Cu). The Si thin films formed were amorphous regardless of the deposition temperature. The grain sizes of Si deposited at 298 K and 853 K were measured as 261 nm and 187 nm, respectively. The Si(HT)/TiNi/Cu electrode exhibited excellent capacity retention until approximately the 45th cycle, whereas rapid capacity fading occurred in the Si(LT)/TiNi/Cu electrode at the same current density of 200 μA/cm2. The better cycle performance is attributed to increased adhesion force between the Si film and the TiNi SMA thin film because the stress generated in the Si thin film during the charge and discharge process was transferred to the TiNi SMA thin film, resulting in a stress absorption effect.
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해양과학대학 (스마트에너지기계공학과)
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