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복잡계자기조립연구단
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Large-area grain-boundary-free copper films for plasmonics

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Title
Large-area grain-boundary-free copper films for plasmonics
Author(s)
Chew S.H.; Gliserin A.; Choi S.; Geng X.T.; Kim S.; Wooseup Hwang; Kangkyun Baek; Anh N.D.; Kim Y.-J.; Song Y.M.; Kim D.E.; Jeong S.-Y.; Kim S.
Subject
Copper, ; Extraordinary optical transmission, ; Polycrystalline films, ; Single-crystalline films, ; Surface plasmon resonances
Publication Date
2020-08
Journal
Applied Surface Science, v.521, pp.146377
Publisher
Elsevier
Abstract
© 2020 The Authors. Ultrasmooth single-crystalline metallic thin films provide several key advantages for the fabrication of well-defined and high-resolution plasmonic nanostructures, particularly complex integrated nanocircuits. For this purpose, copper is generally regarded as a poor plasmonic material compared to gold and silver because of its notorious oxidation issues when subjected to air exposure. Here, we report on the use of large-area grain-boundary-free copper films grown epitaxially on sapphire substrates in combination with focused ion beam milling to pattern plasmonic nanostructures with superior quality. The copper surfaces prepared using a single-crystalline copper sputtering target exhibit a very low roughness without any grain boundaries for varying film thicknesses and a strong resistance to oxidation, overcoming the bottleneck in conventional copper film fabrication. Surface plasmon resonance measurements show that improved dielectric constants with higher conductivity and long-term stability can be achieved using the single-crystalline copper films. Plasmonic nanohole arrays patterned from these high-quality films are found to display a stronger field enhancement compared to those made from polycrystalline copper films, thus resulting in an enhanced extraordinary optical transmission performance. This study suggests that our fabrication method is ideally suited for applications in copper-based plasmonic and nanophotonic devices as well as integrated nanocircuits on a large scale
URI
https://pr.ibs.re.kr/handle/8788114/7723
DOI
10.1016/j.apsusc.2020.146377
ISSN
0169-4332
Appears in Collections:
Center for Self-assembly and Complexity(복잡계 자기조립 연구단) > 1. Journal Papers (저널논문)
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