Electrochemical processing of Cu and Ni nanowire arrays

Munekazu Motoyama; Yasuhiro Fukunaka; Tetsuo Sakka; Yukio H. Ogata; Shiomi Kikuchi

Electrochemical processing of Cu and Ni nanowire arrays

Munekazu Motoyama, Yasuhiro Fukunaka, Tetsuo Sakka, Yukio H. Ogata, Shiomi Kikuchi

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

Cu and Ni nanowire arrays were fabricated by potentiostatic electrodeposition into polycarbonate (PC) track-etched membranes with nano-sized cylindrical pores. The pore diameters of the membranes were from 15 to 200 run. The transient current variation can be divided into four stages during the growth of Cu and Ni nanowires. The nanowires were observed with FE-SEM and TEM. The length was controlled by the thickness of membranes. The aspect ratio reached more than 50. However, the diameters of wires were not perfectly uniform along the length. In the case of nanowire with 15 nm diam, the knurled shape was observed on its side. Such morphology did not depend on the overpotential and the type of metal, Cu or Ni. It may be attributed to the original shape of the pore wall in PC membranes track-etched with heavy ion.

Original language	English
Title of host publication	Pits and Pores III
Subtitle of host publication	Formation, Properties, and Significance for Advanced Materials - Proceedings of the International Symposium
Pages	99-108
Number of pages	10
Publication status	Published - 2006
Externally published	Yes
Event	206th Electrochemical Society Meeting - Honolulu, HI, United States Duration: Oct 3 2004 → Oct 8 2004

Publication series

Name	Proceedings - Electrochemical Society
Volume	PV 2004-19

Conference

Conference	206th Electrochemical Society Meeting
Country/Territory	United States
City	Honolulu, HI
Period	10/3/04 → 10/8/04

All Science Journal Classification (ASJC) codes

Engineering(all)

Cite this

Electrochemical processing of Cu and Ni nanowire arrays. / Motoyama, Munekazu; Fukunaka, Yasuhiro; Sakka, Tetsuo et al.

Pits and Pores III: Formation, Properties, and Significance for Advanced Materials - Proceedings of the International Symposium. 2006. p. 99-108 (Proceedings - Electrochemical Society; Vol. PV 2004-19).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Motoyama, M, Fukunaka, Y, Sakka, T, Ogata, YH & Kikuchi, S 2006, Electrochemical processing of Cu and Ni nanowire arrays. in Pits and Pores III: Formation, Properties, and Significance for Advanced Materials - Proceedings of the International Symposium. Proceedings - Electrochemical Society, vol. PV 2004-19, pp. 99-108, 206th Electrochemical Society Meeting, Honolulu, HI, United States, 10/3/04.

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title = "Electrochemical processing of Cu and Ni nanowire arrays",

abstract = "Cu and Ni nanowire arrays were fabricated by potentiostatic electrodeposition into polycarbonate (PC) track-etched membranes with nano-sized cylindrical pores. The pore diameters of the membranes were from 15 to 200 run. The transient current variation can be divided into four stages during the growth of Cu and Ni nanowires. The nanowires were observed with FE-SEM and TEM. The length was controlled by the thickness of membranes. The aspect ratio reached more than 50. However, the diameters of wires were not perfectly uniform along the length. In the case of nanowire with 15 nm diam, the knurled shape was observed on its side. Such morphology did not depend on the overpotential and the type of metal, Cu or Ni. It may be attributed to the original shape of the pore wall in PC membranes track-etched with heavy ion.",

author = "Munekazu Motoyama and Yasuhiro Fukunaka and Tetsuo Sakka and Ogata, {Yukio H.} and Shiomi Kikuchi",

note = "Funding Information: The author thank Dr. T. Kuzuya for taking a FE-SEM image. Part of this work was supported by financial aides from the 21st century COE program and the Ministry of Education, Science and Culture (Giant-in-Aid for Exploration Research No. 15360402), for which the authors are granted.; 206th Electrochemical Society Meeting ; Conference date: 03-10-2004 Through 08-10-2004",

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T1 - Electrochemical processing of Cu and Ni nanowire arrays

AU - Motoyama, Munekazu

AU - Fukunaka, Yasuhiro

AU - Sakka, Tetsuo

AU - Ogata, Yukio H.

AU - Kikuchi, Shiomi

N1 - Funding Information: The author thank Dr. T. Kuzuya for taking a FE-SEM image. Part of this work was supported by financial aides from the 21st century COE program and the Ministry of Education, Science and Culture (Giant-in-Aid for Exploration Research No. 15360402), for which the authors are granted.

PY - 2006

Y1 - 2006

N2 - Cu and Ni nanowire arrays were fabricated by potentiostatic electrodeposition into polycarbonate (PC) track-etched membranes with nano-sized cylindrical pores. The pore diameters of the membranes were from 15 to 200 run. The transient current variation can be divided into four stages during the growth of Cu and Ni nanowires. The nanowires were observed with FE-SEM and TEM. The length was controlled by the thickness of membranes. The aspect ratio reached more than 50. However, the diameters of wires were not perfectly uniform along the length. In the case of nanowire with 15 nm diam, the knurled shape was observed on its side. Such morphology did not depend on the overpotential and the type of metal, Cu or Ni. It may be attributed to the original shape of the pore wall in PC membranes track-etched with heavy ion.

AB - Cu and Ni nanowire arrays were fabricated by potentiostatic electrodeposition into polycarbonate (PC) track-etched membranes with nano-sized cylindrical pores. The pore diameters of the membranes were from 15 to 200 run. The transient current variation can be divided into four stages during the growth of Cu and Ni nanowires. The nanowires were observed with FE-SEM and TEM. The length was controlled by the thickness of membranes. The aspect ratio reached more than 50. However, the diameters of wires were not perfectly uniform along the length. In the case of nanowire with 15 nm diam, the knurled shape was observed on its side. Such morphology did not depend on the overpotential and the type of metal, Cu or Ni. It may be attributed to the original shape of the pore wall in PC membranes track-etched with heavy ion.

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M3 - Conference contribution

AN - SCOPUS:33745944714

SN - 1566774748

SN - 9781566774741

T3 - Proceedings - Electrochemical Society

SP - 99

EP - 108

BT - Pits and Pores III

T2 - 206th Electrochemical Society Meeting

Y2 - 3 October 2004 through 8 October 2004

ER -

Electrochemical processing of Cu and Ni nanowire arrays

Abstract

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Conference

All Science Journal Classification (ASJC) codes

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