Detection of Chemical Warfare Agent Simulants by using Fluorescence Modulation of Rhodamine 6G/Ag Nanowires

Efficient detection of chemical warfare agents (CWAs) has become indispensable because of the constantly increasing widespread use of CWAs to inflict mass deaths. The commonly used mass spectrometry for CWA detection has a few drawbacks, such as the complexity of equipment and out-situ analysis; thu...

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Published in	Journal of the Korean Physical Society Vol. 75; no. 10; pp. 827 - 831
Main Authors	Jeong, Byeong Geun, Park, Dae Young, Yang, Kihyuk, An, Sung-Jin, Park, Chulho, Lee, Chanwoo, Yu, Hyang Mi, Jeong, Mun Seok, Lee, Seung Mi
Format	Journal Article
Language	English
Published	Seoul The Korean Physical Society 01.11.2019 Springer Nature B.V 한국물리학회
Subjects	Chemical warfare Fluorescence Mass spectrometry Mathematical and Computational Physics Nanowires Organic chemistry Particle and Nuclear Physics Physics Physics and Astronomy Rhodamine 6G Sensitivity enhancement Silver Theoretical 물리학 Chemical warfare agents Localized surface plasmon Silver nanowires Rhodamine 6G
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ISSN	0374-4884 1976-8524
DOI	10.3938/jkps.75.827

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Abstract	Efficient detection of chemical warfare agents (CWAs) has become indispensable because of the constantly increasing widespread use of CWAs to inflict mass deaths. The commonly used mass spectrometry for CWA detection has a few drawbacks, such as the complexity of equipment and out-situ analysis; thus, a simple and intuitive detection method is required to overcome these challenges. Accordingly, in this study, we fabricate Rhodamine 6G (R6G)/Ag nanowires (NWs) for CWA detection based on the sensitive fluorescence changes of R6G caused by the adsorption of different CWA derivatives. In addition, the localized surface plasmon of Ag NWs is applied to enhance the sensitivity of detection due to emission enhancement. The experimental results indicate that the simple CWA detection method proposed in this study can efficiently detect phosphate-type CWAs.
AbstractList	Efficient detection of chemical warfare agents (CWAs) has become indispensable because of the constantly increasing widespread use of CWAs to inflict mass deaths. The commonly used mass spectrometry for CWA detection has a few drawbacks, such as the complexity of equipment and out-situ analysis; thus, a simple and intuitive detection method is required to overcome these challenges. Accordingly, in this study, we fabricate Rhodamine 6G (R6G)/Ag nanowires (NWs) for CWA detection based on the sensitive fluorescence changes of R6G caused by the adsorption of different CWA derivatives. In addition, the localized surface plasmon of Ag NWs is applied to enhance the sensitivity of detection due to emission enhancement. The experimental results indicate that the simple CWA detection method proposed in this study can efficiently detect phosphate-type CWAs. Efficient detection of chemical warfare agents (CWAs) has become indispensable because of the constantly increasing widespread use of CWAs to inflict mass deaths. The commonly used mass spectrometry for CWA detection has a few drawbacks, such as the complexity of equipment and out-situ analysis; thus, a simple and intuitive detection method is required to overcome these challenges. Accordingly, in this study, we fabricate Rhodamine 6G (R6G)/Ag nanowires (NWs) for CWA detection based on the sensitive fluorescence changes of R6G caused by the adsorption of different CWA derivatives. In addition, the localized surface plasmon of Ag NWs is applied to enhance the sensitivity of detection due to emission enhancement. The experimental results indicate that the simple CWA detection method proposed in this study can efficiently detect phosphate-type CWAs. KCI Citation Count: 0
Author	An, Sung-Jin Park, Dae Young Yang, Kihyuk Park, Chulho Lee, Chanwoo Jeong, Byeong Geun Yu, Hyang Mi Jeong, Mun Seok Lee, Seung Mi
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SubjectTerms	Chemical warfare Fluorescence Mass spectrometry Mathematical and Computational Physics Nanowires Organic chemistry Particle and Nuclear Physics Physics Physics and Astronomy Rhodamine 6G Sensitivity enhancement Silver Theoretical 물리학
Title	Detection of Chemical Warfare Agent Simulants by using Fluorescence Modulation of Rhodamine 6G/Ag Nanowires
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