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Dark-Field Scattering and Local SERS Mapping from Plasmonic Aluminum Bowtie Antenna Array

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Zeitschriftentitel: Micromachines
Personen und Körperschaften: Dao, Thang Duy, Hoang, Chung Vu, Nishio, Natsuki, Yamamoto, Naoki, Ohi, Akihiko, Nabatame, Toshihide, Aono, Masakazu, Nagao, Tadaaki
In: Micromachines, 10, 2019, 7, S. 468
Format: E-Article
Sprache: Englisch
veröffentlicht:
MDPI AG
Schlagwörter:
Electrical and Electronic Engineering
Mechanical Engineering
Control and Systems Engineering
author_facet Dao, Thang Duy
Hoang, Chung Vu
Nishio, Natsuki
Yamamoto, Naoki
Ohi, Akihiko
Nabatame, Toshihide
Aono, Masakazu
Nagao, Tadaaki
Dao, Thang Duy
Hoang, Chung Vu
Nishio, Natsuki
Yamamoto, Naoki
Ohi, Akihiko
Nabatame, Toshihide
Aono, Masakazu
Nagao, Tadaaki
author Dao, Thang Duy
Hoang, Chung Vu
Nishio, Natsuki
Yamamoto, Naoki
Ohi, Akihiko
Nabatame, Toshihide
Aono, Masakazu
Nagao, Tadaaki
spellingShingle Dao, Thang Duy
Hoang, Chung Vu
Nishio, Natsuki
Yamamoto, Naoki
Ohi, Akihiko
Nabatame, Toshihide
Aono, Masakazu
Nagao, Tadaaki
Micromachines
Dark-Field Scattering and Local SERS Mapping from Plasmonic Aluminum Bowtie Antenna Array
Electrical and Electronic Engineering
Mechanical Engineering
Control and Systems Engineering
author_sort dao, thang duy
spelling Dao, Thang Duy Hoang, Chung Vu Nishio, Natsuki Yamamoto, Naoki Ohi, Akihiko Nabatame, Toshihide Aono, Masakazu Nagao, Tadaaki 2072-666X MDPI AG Electrical and Electronic Engineering Mechanical Engineering Control and Systems Engineering http://dx.doi.org/10.3390/mi10070468 <jats:p>On the search for the practical plasmonic materials beyond noble metals, aluminum has been emerging as a favorable candidate as it is abundant and offers the possibility of tailoring the plasmonic resonance spanning from ultra-violet to the infrared range. In this letter, in combination with the numerical electromagnetic simulations, we experimentally study the dark-field scattering spectral mapping of plasmonic resonance from the free-standing Al bowtie antenna arrays and correlate their strong nearfield enhancement with the sensing capability by means of surface-enhanced Raman spectroscopy. The spatial matching of plasmonic and Raman mapping puts another step to realize a very promising application of free-standing Al bowtie antennas for plasmonic sensing.</jats:p> Dark-Field Scattering and Local SERS Mapping from Plasmonic Aluminum Bowtie Antenna Array Micromachines
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title Dark-Field Scattering and Local SERS Mapping from Plasmonic Aluminum Bowtie Antenna Array
title_unstemmed Dark-Field Scattering and Local SERS Mapping from Plasmonic Aluminum Bowtie Antenna Array
title_full Dark-Field Scattering and Local SERS Mapping from Plasmonic Aluminum Bowtie Antenna Array
title_fullStr Dark-Field Scattering and Local SERS Mapping from Plasmonic Aluminum Bowtie Antenna Array
title_full_unstemmed Dark-Field Scattering and Local SERS Mapping from Plasmonic Aluminum Bowtie Antenna Array
title_short Dark-Field Scattering and Local SERS Mapping from Plasmonic Aluminum Bowtie Antenna Array
title_sort dark-field scattering and local sers mapping from plasmonic aluminum bowtie antenna array
topic Electrical and Electronic Engineering
Mechanical Engineering
Control and Systems Engineering
url http://dx.doi.org/10.3390/mi10070468
publishDate 2019
physical 468
description <jats:p>On the search for the practical plasmonic materials beyond noble metals, aluminum has been emerging as a favorable candidate as it is abundant and offers the possibility of tailoring the plasmonic resonance spanning from ultra-violet to the infrared range. In this letter, in combination with the numerical electromagnetic simulations, we experimentally study the dark-field scattering spectral mapping of plasmonic resonance from the free-standing Al bowtie antenna arrays and correlate their strong nearfield enhancement with the sensing capability by means of surface-enhanced Raman spectroscopy. The spatial matching of plasmonic and Raman mapping puts another step to realize a very promising application of free-standing Al bowtie antennas for plasmonic sensing.</jats:p>
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author Dao, Thang Duy, Hoang, Chung Vu, Nishio, Natsuki, Yamamoto, Naoki, Ohi, Akihiko, Nabatame, Toshihide, Aono, Masakazu, Nagao, Tadaaki
author_facet Dao, Thang Duy, Hoang, Chung Vu, Nishio, Natsuki, Yamamoto, Naoki, Ohi, Akihiko, Nabatame, Toshihide, Aono, Masakazu, Nagao, Tadaaki, Dao, Thang Duy, Hoang, Chung Vu, Nishio, Natsuki, Yamamoto, Naoki, Ohi, Akihiko, Nabatame, Toshihide, Aono, Masakazu, Nagao, Tadaaki
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description <jats:p>On the search for the practical plasmonic materials beyond noble metals, aluminum has been emerging as a favorable candidate as it is abundant and offers the possibility of tailoring the plasmonic resonance spanning from ultra-violet to the infrared range. In this letter, in combination with the numerical electromagnetic simulations, we experimentally study the dark-field scattering spectral mapping of plasmonic resonance from the free-standing Al bowtie antenna arrays and correlate their strong nearfield enhancement with the sensing capability by means of surface-enhanced Raman spectroscopy. The spatial matching of plasmonic and Raman mapping puts another step to realize a very promising application of free-standing Al bowtie antennas for plasmonic sensing.</jats:p>
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spelling Dao, Thang Duy Hoang, Chung Vu Nishio, Natsuki Yamamoto, Naoki Ohi, Akihiko Nabatame, Toshihide Aono, Masakazu Nagao, Tadaaki 2072-666X MDPI AG Electrical and Electronic Engineering Mechanical Engineering Control and Systems Engineering http://dx.doi.org/10.3390/mi10070468 <jats:p>On the search for the practical plasmonic materials beyond noble metals, aluminum has been emerging as a favorable candidate as it is abundant and offers the possibility of tailoring the plasmonic resonance spanning from ultra-violet to the infrared range. In this letter, in combination with the numerical electromagnetic simulations, we experimentally study the dark-field scattering spectral mapping of plasmonic resonance from the free-standing Al bowtie antenna arrays and correlate their strong nearfield enhancement with the sensing capability by means of surface-enhanced Raman spectroscopy. The spatial matching of plasmonic and Raman mapping puts another step to realize a very promising application of free-standing Al bowtie antennas for plasmonic sensing.</jats:p> Dark-Field Scattering and Local SERS Mapping from Plasmonic Aluminum Bowtie Antenna Array Micromachines
spellingShingle Dao, Thang Duy, Hoang, Chung Vu, Nishio, Natsuki, Yamamoto, Naoki, Ohi, Akihiko, Nabatame, Toshihide, Aono, Masakazu, Nagao, Tadaaki, Micromachines, Dark-Field Scattering and Local SERS Mapping from Plasmonic Aluminum Bowtie Antenna Array, Electrical and Electronic Engineering, Mechanical Engineering, Control and Systems Engineering
title Dark-Field Scattering and Local SERS Mapping from Plasmonic Aluminum Bowtie Antenna Array
title_full Dark-Field Scattering and Local SERS Mapping from Plasmonic Aluminum Bowtie Antenna Array
title_fullStr Dark-Field Scattering and Local SERS Mapping from Plasmonic Aluminum Bowtie Antenna Array
title_full_unstemmed Dark-Field Scattering and Local SERS Mapping from Plasmonic Aluminum Bowtie Antenna Array
title_short Dark-Field Scattering and Local SERS Mapping from Plasmonic Aluminum Bowtie Antenna Array
title_sort dark-field scattering and local sers mapping from plasmonic aluminum bowtie antenna array
title_unstemmed Dark-Field Scattering and Local SERS Mapping from Plasmonic Aluminum Bowtie Antenna Array
topic Electrical and Electronic Engineering, Mechanical Engineering, Control and Systems Engineering
url http://dx.doi.org/10.3390/mi10070468