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

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

<p>Abstract</p> <p>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 an...

Full description

Bibliographic Details
Main Authors: Kong Bo, Cho Hyung, Shin Sangwoo, Kim Beom, Kim Kyung
Format: Article
Language:English
Published: SpringerOpen 2011-01-01
Series:Nanoscale Research Letters
Subjects:
Cu nanowire
template-assisted electrodeposition
length uniformity
low-temperature electrodeposition
nucleation
crystallinity
Online Access:http://www.nanoscalereslett.com/content/6/1/467
id doaj-7adcf25c7d9d462c93e99944a3b2c776
record_format Article
spelling doaj-7adcf25c7d9d462c93e99944a3b2c7762020-11-24T21:59:42ZengSpringerOpenNanoscale Research Letters1931-75731556-276X2011-01-0161467Over 95% of large-scale length uniformity in template-assisted electrodeposited nanowires by subzero-temperature electrodepositionKong BoCho HyungShin SangwooKim BeomKim KyungCho Hyung<p>Abstract</p> <p>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&#176;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.</p> http://www.nanoscalereslett.com/content/6/1/467Cu nanowiretemplate-assisted electrodepositionlength uniformitylow-temperature electrodepositionnucleationcrystallinity
collection DOAJ
language English
format Article
sources DOAJ
author Kong Bo
Cho Hyung
Shin Sangwoo
Kim Beom
Kim Kyung
Cho Hyung
spellingShingle Kong Bo
Cho Hyung
Shin Sangwoo
Kim Beom
Kim Kyung
Cho Hyung
Over 95% of large-scale length uniformity in template-assisted electrodeposited nanowires by subzero-temperature electrodeposition
Nanoscale Research Letters
Cu nanowire
template-assisted electrodeposition
length uniformity
low-temperature electrodeposition
nucleation
crystallinity
author_facet Kong Bo
Cho Hyung
Shin Sangwoo
Kim Beom
Kim Kyung
Cho Hyung
author_sort Kong Bo
title Over 95% of large-scale length uniformity in template-assisted electrodeposited nanowires by subzero-temperature electrodeposition
title_short Over 95% of large-scale length uniformity in template-assisted electrodeposited nanowires by subzero-temperature electrodeposition
title_full Over 95% of large-scale length uniformity in template-assisted electrodeposited nanowires by subzero-temperature electrodeposition
title_fullStr Over 95% of large-scale length uniformity in template-assisted electrodeposited nanowires by subzero-temperature electrodeposition
title_full_unstemmed Over 95% of large-scale length uniformity in template-assisted electrodeposited nanowires by subzero-temperature electrodeposition
title_sort over 95% of large-scale length uniformity in template-assisted electrodeposited nanowires by subzero-temperature electrodeposition
publisher SpringerOpen
series Nanoscale Research Letters
issn 1931-7573
1556-276X
publishDate 2011-01-01
description <p>Abstract</p> <p>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&#176;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.</p>
topic Cu nanowire
template-assisted electrodeposition
length uniformity
low-temperature electrodeposition
nucleation
crystallinity
url http://www.nanoscalereslett.com/content/6/1/467
work_keys_str_mv AT kongbo over95oflargescalelengthuniformityintemplateassistedelectrodepositednanowiresbysubzerotemperatureelectrodeposition
AT chohyung over95oflargescalelengthuniformityintemplateassistedelectrodepositednanowiresbysubzerotemperatureelectrodeposition
AT shinsangwoo over95oflargescalelengthuniformityintemplateassistedelectrodepositednanowiresbysubzerotemperatureelectrodeposition
AT kimbeom over95oflargescalelengthuniformityintemplateassistedelectrodepositednanowiresbysubzerotemperatureelectrodeposition
AT kimkyung over95oflargescalelengthuniformityintemplateassistedelectrodepositednanowiresbysubzerotemperatureelectrodeposition
AT chohyung over95oflargescalelengthuniformityintemplateassistedelectrodepositednanowiresbysubzerotemperatureelectrodeposition
_version_ 1725847612330868736

Similar Items