Deflection-based laser sensing platform for selective and sensitive detection of H2S using plasmonic nanostructures

Deflection-based laser sensing platform for selective and sensitive detection of H2S using plasmonic nanostructures

Considering the severe hazards of abnormal concentration level of H 2 S as an extremely toxic gas to the human body and due to the disability of olfactory system in sensing toxic level of H 2 S concentration, a reliable, sensitive, selective and rapid method for the detection of H 2 S is proposed an...

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Published in:Scientific reports Vol. 12; no. 1; pp. 1 - 10
Main Authors: Afjeh-Dana, Elham, Asadian, Elham, Razzaghi, Mohammad Reza, Rafii-Tabar, Hashem, Sasanpour, Pezhman
Format: Journal Article
Language:English
Published: London Nature Publishing Group UK 22-09-2022
Nature Publishing Group
Nature Portfolio
Subjects:
639/624/1107/510
639/624/1111/1116
639/705/1042
639/925/927/1021
639/925/927/511
Deflection
Gold
Humanities and Social Sciences
Hydrogen sulfide
Lasers
multidisciplinary
Olfactory system
Science
Science (multidisciplinary)
Silicon dioxide
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Abstract Considering the severe hazards of abnormal concentration level of H 2 S as an extremely toxic gas to the human body and due to the disability of olfactory system in sensing toxic level of H 2 S concentration, a reliable, sensitive, selective and rapid method for the detection of H 2 S is proposed and its efficacy is analyzed through simulation. The proposed system is based on the deflection of a laser beam in response to the temperature variations in its path. In order to provide selectivity and improve sensitivity, gold nanostructures were employed in the system. The selectivity was introduced based on the thiol–gold interactions and the sensitivity of the system was enhanced due to the modification of plasmon resonance behavior of gold nanostructures in response to gas adsorption. Results from our analysis demonstrate that compared with Au and SiO 2 –Au, the Au nanomatryoshka structures (Au–SiO 2 –Au) showed the highest sensitivity due to promoting higher deflections of the laser beam.
AbstractList Considering the severe hazards of abnormal concentration level of H2S as an extremely toxic gas to the human body and due to the disability of olfactory system in sensing toxic level of H2S concentration, a reliable, sensitive, selective and rapid method for the detection of H2S is proposed and its efficacy is analyzed through simulation. The proposed system is based on the deflection of a laser beam in response to the temperature variations in its path. In order to provide selectivity and improve sensitivity, gold nanostructures were employed in the system. The selectivity was introduced based on the thiol–gold interactions and the sensitivity of the system was enhanced due to the modification of plasmon resonance behavior of gold nanostructures in response to gas adsorption. Results from our analysis demonstrate that compared with Au and SiO2–Au, the Au nanomatryoshka structures (Au–SiO2–Au) showed the highest sensitivity due to promoting higher deflections of the laser beam.
Abstract Considering the severe hazards of abnormal concentration level of H2S as an extremely toxic gas to the human body and due to the disability of olfactory system in sensing toxic level of H2S concentration, a reliable, sensitive, selective and rapid method for the detection of H2S is proposed and its efficacy is analyzed through simulation. The proposed system is based on the deflection of a laser beam in response to the temperature variations in its path. In order to provide selectivity and improve sensitivity, gold nanostructures were employed in the system. The selectivity was introduced based on the thiol–gold interactions and the sensitivity of the system was enhanced due to the modification of plasmon resonance behavior of gold nanostructures in response to gas adsorption. Results from our analysis demonstrate that compared with Au and SiO2–Au, the Au nanomatryoshka structures (Au–SiO2–Au) showed the highest sensitivity due to promoting higher deflections of the laser beam.
Considering the severe hazards of abnormal concentration level of H 2 S as an extremely toxic gas to the human body and due to the disability of olfactory system in sensing toxic level of H 2 S concentration, a reliable, sensitive, selective and rapid method for the detection of H 2 S is proposed and its efficacy is analyzed through simulation. The proposed system is based on the deflection of a laser beam in response to the temperature variations in its path. In order to provide selectivity and improve sensitivity, gold nanostructures were employed in the system. The selectivity was introduced based on the thiol–gold interactions and the sensitivity of the system was enhanced due to the modification of plasmon resonance behavior of gold nanostructures in response to gas adsorption. Results from our analysis demonstrate that compared with Au and SiO 2 –Au, the Au nanomatryoshka structures (Au–SiO 2 –Au) showed the highest sensitivity due to promoting higher deflections of the laser beam.
ArticleNumber 15789
Author Rafii-Tabar, Hashem
Asadian, Elham
Afjeh-Dana, Elham
Sasanpour, Pezhman
Razzaghi, Mohammad Reza
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  givenname: Hashem
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  givenname: Pezhman
  surname: Sasanpour
  fullname: Sasanpour, Pezhman
  email: pesasanpour@sbmu.ac.ir
  organization: Department of Medical Physics & Biomedical Engineering, School of Medicine, Shahid Beheshti University of Medical Sciences, School of Nanoscience, Institute for Research in Fundamental Sciences (IPM)
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Snippet Considering the severe hazards of abnormal concentration level of H 2 S as an extremely toxic gas to the human body and due to the disability of olfactory...
Considering the severe hazards of abnormal concentration level of H2S as an extremely toxic gas to the human body and due to the disability of olfactory system...
Abstract Considering the severe hazards of abnormal concentration level of H2S as an extremely toxic gas to the human body and due to the disability of...
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SubjectTerms 639/624/1107/510
639/624/1111/1116
639/705/1042
639/925/927/1021
639/925/927/511
Deflection
Gold
Humanities and Social Sciences
Hydrogen sulfide
Lasers
multidisciplinary
Olfactory system
Science
Science (multidisciplinary)
Silicon dioxide
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Title Deflection-based laser sensing platform for selective and sensitive detection of H2S using plasmonic nanostructures
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