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Electrodeposition of cobalt based ferro-magnetic metal nanowires in polycarbonate films with cylindrical nanochannels fabricated by heavy-ion-track etching

机译：通过重离子轨道蚀刻制备的圆柱形纳米通道涂层薄膜中钴基铁磁金属纳米线的电沉积

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Polycarbonate films of thickness 30 μm were irradiated with heavy ions by applying a flux of 108 ions cm-2 to produce straight tracks perpendicular to the film surface. The tracks were preferentially etched in 6 M aqueous solution of sodium hydroxide to prepare cylindrical nanochannels. The channel diameters were tuned between 200 and 600 nm by varying the etching time. Co81Cu19 alloy nanowires were electrodeposited potentiostatically, while Co/Cu multilayered nanowires, consisting of alternating Co and Cu layers with thickness 10 nm, were synthesized by means of a pulse plating technique in channels of length 30 μm and diameter 200 nm. Co81Cu19 alloy nanowires showed an anisotropic magnetoresistance effect of 0.6%, and the giant magnetoresistance of Co/Cu multilayered nanowires reached up to 8.0%.

机译：通过施加108离子cm-2的通量，用重离子辐照厚度为30μm的聚碳酸酯薄膜，以产生垂直于薄膜表面的笔直轨迹。优选在6M氢氧化钠水溶液中蚀刻所述迹线以制备圆柱形纳米通道。通过改变蚀刻时间，将沟道直径调节在200至600nm之间。 Co81Cu19合金纳米线被恒电位电沉积，而Co / Cu多层纳米线由厚度为10 nm的交替的Co和Cu层组成，是通过脉冲电镀技术在长度为30μm，直径为200 nm的通道中合成的。 Co81Cu19合金纳米线的各向异性磁阻效应为0.6％，Co / Cu多层纳米线的巨磁阻高达8.0％。

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Ohgai Takeshi; Hjort Klas; Spohr R.; Neumann Reinhard A.;
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年度 2008
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1. Electrodeposition of cobalt based ferro-magnetic metal nanowires in polycarbonate films with cylindrical nanochannels fabricated by heavy-ion-track etching [J] . Ohgai T, Hjort K, Spohr R, Journal of Applied Electrochemistry . 2008,第5期

机译：重离子轨迹刻蚀法制备的具有圆柱形纳米通道的聚碳酸酯薄膜中的钴基铁磁性金属纳米线的电沉积
2. Electrodeposition of cobalt based ferro-magnetic metal nanowires in polycarbonate films with cylindrical nanochannels fabricated by heavy-ion-track etching [J] . T. Ohgai, K. Hjort, R. Spohr, Journal of Applied Electrochemistry . 2008,第5期

机译：重离子轨迹刻蚀法制备的具有圆柱形纳米通道的聚碳酸酯薄膜中的钴基铁磁性金属纳米线的电沉积
3. CdTe semiconductor nanowires and NiFe ferro-magnetic metal nanowires electrodeposited into cylindrical nano-pores on the surface of anodized aluminum [J] . T.OHGAI, L. GRAVIER, X. HOFFER Journal of Applied Electrochemistry . 2005,第5期

机译：CdTe半导体纳米线和NiFe铁磁性金属纳米线电沉积到阳极氧化铝表面上的圆柱形纳米孔中
4. Electrodeposition of Metallic Nanowires in Nanoporous Polycarbonate Films [C] . Takeshi Ohgai, Masayuki Mizumoto, Shigeki Nomura, International Conference on Processing amp; Manufacturing of Advanced Materials; 20060704-08; Vancouver(CA) . 2006

机译：纳米多孔聚碳酸酯薄膜中金属纳米线的电沉积
5. Aqueous electrodeposition of cobalt-antimony films and nanowires for thermoelectric applications. [D] . Klitzke, Jeremy Paul. 2009

机译：热电应用中钴锑膜和纳米线的水电沉积。
6. Formation of silicon nanowire packed films from metallurgical-grade silicon powder using a two-step metal-assisted chemical etching method [O] . Rachid Ouertani, Abderrahmen Hamdi, Chohdi Amri, 2014

机译：使用两步金属辅助化学刻蚀方法由冶金级硅粉形成硅纳米线填充膜
7. Electrodeposition of Metallic Nanowires in Nanoporous Polycarbonate Films [O] . Ohgai Takeshi, Mizumoto Masayuki, Nomura Shigeki, 2007

机译：纳米多孔聚碳酸酯薄膜中金属纳米线的电沉积

Electrodeposition of cobalt based ferro-magnetic metal nanowires in polycarbonate films with cylindrical nanochannels fabricated by heavy-ion-track etching

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