Rapid, on-site detection of residual explosives based on a lab-in-a-capillary and UV fiber sensor

Ruliang Wang; Guang Yang; Junqi Zhang; Qi Li; Rongxin Fu; Jiancheng Ye; Tongzhou Wang; Ying Lu; Hong Zhou; Guoliang Huang

doi:10.1039/c4ay02143f

Rapid, on-site detection of residual explosives based on a lab-in-a-capillary and UV fiber sensor

Ruliang Wang, Guang Yang, Junqi Zhang, Qi Li, Rongxin Fu, Jiancheng Ye, Tongzhou Wang, Ying Lu, Hong Zhou^*, Guoliang Huang

^*此作品的通讯作者

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3 引用（Scopus）

摘要

An integrated portable system based on a lab-in-a-capillary and a UV (190-400 nm) reflected fiber sensor was demonstrated for on-site detection of trace amounts of explosives in a micro-nanoliter droplet. The filtration and measurement of the residual explosive sample were integrated in a compact device. The micro-droplet (1 nL-1 μL) was loaded onto the capillary-end by the equilibrium between gravity and negative air pressure for UV spectral analysis. Moreover, a new mixed spectrum decomposition algorithm (MSDA) was used to calculate the concentration of multiple explosives in the soil of the explosion site. This system for real-time explosive analysis features a short sample preparation and analysis time (<5 s), low sample consumption (10 nL), wide detection range (1-250 ng μL^-1), low detection limit (<10 pg), and is easy to disassemble and clean, which fulfills the requirements for on-site explosive detection.

源语言	英语
页（从-至）	9628-9633
页数	6
期刊	Analytical Methods
卷	6
期	24
DOI	https://doi.org/10.1039/c4ay02143f
出版状态	已出版 - 21 12月 2014
已对外发布	是

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title = "Rapid, on-site detection of residual explosives based on a lab-in-a-capillary and UV fiber sensor",

abstract = "An integrated portable system based on a lab-in-a-capillary and a UV (190-400 nm) reflected fiber sensor was demonstrated for on-site detection of trace amounts of explosives in a micro-nanoliter droplet. The filtration and measurement of the residual explosive sample were integrated in a compact device. The micro-droplet (1 nL-1 μL) was loaded onto the capillary-end by the equilibrium between gravity and negative air pressure for UV spectral analysis. Moreover, a new mixed spectrum decomposition algorithm (MSDA) was used to calculate the concentration of multiple explosives in the soil of the explosion site. This system for real-time explosive analysis features a short sample preparation and analysis time (<5 s), low sample consumption (10 nL), wide detection range (1-250 ng μL-1), low detection limit (<10 pg), and is easy to disassemble and clean, which fulfills the requirements for on-site explosive detection.",

author = "Ruliang Wang and Guang Yang and Junqi Zhang and Qi Li and Rongxin Fu and Jiancheng Ye and Tongzhou Wang and Ying Lu and Hong Zhou and Guoliang Huang",

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AU - Wang, Ruliang

AU - Yang, Guang

AU - Zhang, Junqi

AU - Li, Qi

AU - Fu, Rongxin

AU - Ye, Jiancheng

AU - Wang, Tongzhou

AU - Lu, Ying

AU - Zhou, Hong

AU - Huang, Guoliang

PY - 2014/12/21

Y1 - 2014/12/21

N2 - An integrated portable system based on a lab-in-a-capillary and a UV (190-400 nm) reflected fiber sensor was demonstrated for on-site detection of trace amounts of explosives in a micro-nanoliter droplet. The filtration and measurement of the residual explosive sample were integrated in a compact device. The micro-droplet (1 nL-1 μL) was loaded onto the capillary-end by the equilibrium between gravity and negative air pressure for UV spectral analysis. Moreover, a new mixed spectrum decomposition algorithm (MSDA) was used to calculate the concentration of multiple explosives in the soil of the explosion site. This system for real-time explosive analysis features a short sample preparation and analysis time (<5 s), low sample consumption (10 nL), wide detection range (1-250 ng μL-1), low detection limit (<10 pg), and is easy to disassemble and clean, which fulfills the requirements for on-site explosive detection.

AB - An integrated portable system based on a lab-in-a-capillary and a UV (190-400 nm) reflected fiber sensor was demonstrated for on-site detection of trace amounts of explosives in a micro-nanoliter droplet. The filtration and measurement of the residual explosive sample were integrated in a compact device. The micro-droplet (1 nL-1 μL) was loaded onto the capillary-end by the equilibrium between gravity and negative air pressure for UV spectral analysis. Moreover, a new mixed spectrum decomposition algorithm (MSDA) was used to calculate the concentration of multiple explosives in the soil of the explosion site. This system for real-time explosive analysis features a short sample preparation and analysis time (<5 s), low sample consumption (10 nL), wide detection range (1-250 ng μL-1), low detection limit (<10 pg), and is easy to disassemble and clean, which fulfills the requirements for on-site explosive detection.

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JO - Analytical Methods

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Rapid, on-site detection of residual explosives based on a lab-in-a-capillary and UV fiber sensor

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