Over 95% of large-scale length uniformity in template-assisted electrodeposited nanowires by subzero-temperature electrodeposition

Sangwoo Shin; Bo Hyun Kong; Beom Seok Kim; Kyung Min Kim; Hyung Koun Cho; Hyung Hee Cho

doi:10.1186/1556-276X-6-467

Over 95% of large-scale length uniformity in template-assisted electrodeposited nanowires by subzero-temperature electrodeposition

Sangwoo Shin, Bo Hyun Kong, Beom Seok Kim, Kyung Min Kim, Hyung Koun Cho, Hyung Hee Cho

Dept. of Mechanical & Automotive Engineering

Research output: Contribution to journal › Article › peer-review

29 Scopus citations

Abstract

In this work, we report highly uniform growth of template-assisted electrodeposited copper nanowires on a large area by lowering the deposition temperature down to subzero centigrade. Even with highly disordered commercial porous anodic aluminum oxide template and conventional potentiostatic electrodeposition, length uniformity over 95% can be achieved when the deposition temperature is lowered down to -2.4°C. Decreased diffusion coefficient and ion concentration gradient due to the lowered deposition temperature effectively reduces ion diffusion rate, thereby favors uniform nanowire growth. Moreover, by varying the deposition temperature, we show that also the pore nucleation and the crystallinity can be controlled.

Original language	English
Article number	467
Pages (from-to)	1-8
Number of pages	8
Journal	Nanoscale Research Letters
Volume	6
DOIs	https://doi.org/10.1186/1556-276X-6-467
State	Published - 2011

Keywords

Crystallinity
Cu nanowire
Length uniformity
Low-temperature electrodeposition
Nucleation
Template-assisted electrodeposition

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10.1186/1556-276X-6-467

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abstract = "In this work, we report highly uniform growth of template-assisted electrodeposited copper nanowires on a large area by lowering the deposition temperature down to subzero centigrade. Even with highly disordered commercial porous anodic aluminum oxide template and conventional potentiostatic electrodeposition, length uniformity over 95\% can be achieved when the deposition temperature is lowered down to -2.4°C. Decreased diffusion coefficient and ion concentration gradient due to the lowered deposition temperature effectively reduces ion diffusion rate, thereby favors uniform nanowire growth. Moreover, by varying the deposition temperature, we show that also the pore nucleation and the crystallinity can be controlled.",

keywords = "Crystallinity, Cu nanowire, Length uniformity, Low-temperature electrodeposition, Nucleation, Template-assisted electrodeposition",

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AU - Kong, Bo Hyun

AU - Kim, Beom Seok

AU - Kim, Kyung Min

AU - Cho, Hyung Koun

AU - Cho, Hyung Hee

PY - 2011

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N2 - In this work, we report highly uniform growth of template-assisted electrodeposited copper nanowires on a large area by lowering the deposition temperature down to subzero centigrade. Even with highly disordered commercial porous anodic aluminum oxide template and conventional potentiostatic electrodeposition, length uniformity over 95% can be achieved when the deposition temperature is lowered down to -2.4°C. Decreased diffusion coefficient and ion concentration gradient due to the lowered deposition temperature effectively reduces ion diffusion rate, thereby favors uniform nanowire growth. Moreover, by varying the deposition temperature, we show that also the pore nucleation and the crystallinity can be controlled.

AB - In this work, we report highly uniform growth of template-assisted electrodeposited copper nanowires on a large area by lowering the deposition temperature down to subzero centigrade. Even with highly disordered commercial porous anodic aluminum oxide template and conventional potentiostatic electrodeposition, length uniformity over 95% can be achieved when the deposition temperature is lowered down to -2.4°C. Decreased diffusion coefficient and ion concentration gradient due to the lowered deposition temperature effectively reduces ion diffusion rate, thereby favors uniform nanowire growth. Moreover, by varying the deposition temperature, we show that also the pore nucleation and the crystallinity can be controlled.

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KW - Cu nanowire

KW - Length uniformity

KW - Low-temperature electrodeposition

KW - Nucleation

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Over 95% of large-scale length uniformity in template-assisted electrodeposited nanowires by subzero-temperature electrodeposition

Abstract

Keywords

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