Color Changes in Ag Nanoparticle Aggregates Placed in Various Environments: Their Application to Air Monitoring

Fresh Ag nanoparticles (NPs) dispersed on a transparent SiO<sub>2</sub> exhibit an intense optical extinction band originating in localized surface plasmon resonance (LSPR) in the visible range. The intensity of the LSPR band weakened when the Ag NPs was stored in ambient air for two wee...

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Main Authors: Koichi Ozaki, Fumitaka Nishiyama, Katsumi Takahiro
Format: Article
Language:English
Published: MDPI AG 2021-03-01
Series:Nanomaterials
Subjects:
Online Access:https://www.mdpi.com/2079-4991/11/3/701
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spelling doaj-3c83f548a9c24c40af74a6dabf3295d02021-03-12T00:00:50ZengMDPI AGNanomaterials2079-49912021-03-011170170110.3390/nano11030701Color Changes in Ag Nanoparticle Aggregates Placed in Various Environments: Their Application to Air MonitoringKoichi Ozaki0Fumitaka Nishiyama1Katsumi Takahiro2Faculty of Materials Science and Engineering, Kyoto Institute of Technology, Matsugasaki, Sakyo, Kyoto 606-8585, JapanResearch Institute for Nanodevice and Bio Systems, Hiroshima University, Kagamiyama 1-4-1, Higashi-Hiroshima, Hiroshima 739-8527, JapanFaculty of Materials Science and Engineering, Kyoto Institute of Technology, Matsugasaki, Sakyo, Kyoto 606-8585, JapanFresh Ag nanoparticles (NPs) dispersed on a transparent SiO<sub>2</sub> exhibit an intense optical extinction band originating in localized surface plasmon resonance (LSPR) in the visible range. The intensity of the LSPR band weakened when the Ag NPs was stored in ambient air for two weeks. The rate of the weakening and the LSPR wavelength shift, corresponding to visual chromatic changes, strongly depended on the environment in which Ag NPs were set. The origin of a chromatic change was discussed along with both compositional and morphological changes. In one case, bluish coloring followed by a prompt discoloring was observed for Ag NPs placed near the ventilation fan in our laboratory, resulted from adsorption of large amounts of S and Cl on Ag NP surfaces as well as particle coarsening. Such color changes deduce the presence of significant amounts of S and Cl in the environment. In another case, a remarkable blue-shift of the LSPR band was observed for the Ag NPs stored in the desiccator made of stainless steel, originated in the formation of CN and/or HCN compounds and surface roughening. Their color changed from maroon to reddish, suggesting that such molecules were present inside the desiccator.https://www.mdpi.com/2079-4991/11/3/701Ag nanoparticlelocalized surface plasmon resonancecolorred-shiftblue-shift
collection DOAJ
language English
format Article
sources DOAJ
author Koichi Ozaki
Fumitaka Nishiyama
Katsumi Takahiro
spellingShingle Koichi Ozaki
Fumitaka Nishiyama
Katsumi Takahiro
Color Changes in Ag Nanoparticle Aggregates Placed in Various Environments: Their Application to Air Monitoring
Nanomaterials
Ag nanoparticle
localized surface plasmon resonance
color
red-shift
blue-shift
author_facet Koichi Ozaki
Fumitaka Nishiyama
Katsumi Takahiro
author_sort Koichi Ozaki
title Color Changes in Ag Nanoparticle Aggregates Placed in Various Environments: Their Application to Air Monitoring
title_short Color Changes in Ag Nanoparticle Aggregates Placed in Various Environments: Their Application to Air Monitoring
title_full Color Changes in Ag Nanoparticle Aggregates Placed in Various Environments: Their Application to Air Monitoring
title_fullStr Color Changes in Ag Nanoparticle Aggregates Placed in Various Environments: Their Application to Air Monitoring
title_full_unstemmed Color Changes in Ag Nanoparticle Aggregates Placed in Various Environments: Their Application to Air Monitoring
title_sort color changes in ag nanoparticle aggregates placed in various environments: their application to air monitoring
publisher MDPI AG
series Nanomaterials
issn 2079-4991
publishDate 2021-03-01
description Fresh Ag nanoparticles (NPs) dispersed on a transparent SiO<sub>2</sub> exhibit an intense optical extinction band originating in localized surface plasmon resonance (LSPR) in the visible range. The intensity of the LSPR band weakened when the Ag NPs was stored in ambient air for two weeks. The rate of the weakening and the LSPR wavelength shift, corresponding to visual chromatic changes, strongly depended on the environment in which Ag NPs were set. The origin of a chromatic change was discussed along with both compositional and morphological changes. In one case, bluish coloring followed by a prompt discoloring was observed for Ag NPs placed near the ventilation fan in our laboratory, resulted from adsorption of large amounts of S and Cl on Ag NP surfaces as well as particle coarsening. Such color changes deduce the presence of significant amounts of S and Cl in the environment. In another case, a remarkable blue-shift of the LSPR band was observed for the Ag NPs stored in the desiccator made of stainless steel, originated in the formation of CN and/or HCN compounds and surface roughening. Their color changed from maroon to reddish, suggesting that such molecules were present inside the desiccator.
topic Ag nanoparticle
localized surface plasmon resonance
color
red-shift
blue-shift
url https://www.mdpi.com/2079-4991/11/3/701
work_keys_str_mv AT koichiozaki colorchangesinagnanoparticleaggregatesplacedinvariousenvironmentstheirapplicationtoairmonitoring
AT fumitakanishiyama colorchangesinagnanoparticleaggregatesplacedinvariousenvironmentstheirapplicationtoairmonitoring
AT katsumitakahiro colorchangesinagnanoparticleaggregatesplacedinvariousenvironmentstheirapplicationtoairmonitoring
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