Cuprous oxide (Cu₂O) nanowires were prepared by electrodeposition into a porous alumina template. To deposit the Cu₂O nanowires defect-free into the alumina membrane, a cathodic current density of -0.5 ㎃/㎠ was constantly applied in a copper su...
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https://www.riss.kr/link?id=A45042916
Lee, Jaeyoung (Fuel Cell Research Center, Korea Institute of Science and Technology) ; Oh, Jaeho (Department of Chemical Engineering, Inha University) ; Tak, Yongsug (Department of Chemical Engineering, Inha University)
2004
English
570.05
SCOPUS,KCI등재,SCIE
학술저널
1058-1061(4쪽)
※ 발행기관의 정책으로 인하여 개인 판매가 중단된 논문입니다. 구독기관 이용자는 [ KISS] 홈페이지에서 원문을 이용해 주시기 바랍니다.
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다운로드다국어 초록 (Multilingual Abstract)
Cuprous oxide (Cu₂O) nanowires were prepared by electrodeposition into a porous alumina template. To deposit the Cu₂O nanowires defect-free into the alumina membrane, a cathodic current density of -0.5 ㎃/㎠ was constantly applied in a copper su...
Cuprous oxide (Cu₂O) nanowires were prepared by electrodeposition into a porous alumina template. To deposit the Cu₂O nanowires defect-free into the alumina membrane, a cathodic current density of -0.5 ㎃/㎠ was constantly applied in a copper sulfate electrolyte in the presence of lactic acid. Top-view and cross-sectional observations by TEM and SEM showed homogeneous filling of the Cu₂O nanowires in the 100- and 200-㎚ alumina pores. The length of the Cu₂O nanowires was 4 ㎛. EDS data indicated pure Cu₂O and XRD analysis showed preferential growth of Cu₂O (200) and (111) nanowires in the absence of Cu metal and CuO.
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