A hybrid nanosensor for TNT vapor detection

Alvaro Díaz Aguilar; Erica Forzani; Mathew Leright; Francis Tsow; Avi Cagan; Rodrigo A. Iglesias; Larry A. Nagahara; Islamshah Amlani; Raymond Tsui; Nongjian Tao

doi:10.1021/nl902382s

A hybrid nanosensor for TNT vapor detection

Alvaro Díaz Aguilar, Erica Forzani, Mathew Leright, Francis Tsow, Avi Cagan, Rodrigo A. Iglesias, Larry A. Nagahara, Islamshah Amlani, Raymond Tsui, Nongjian Tao

Research output: Contribution to journal › Article › peer-review

104 Scopus citations

Abstract

Real-time detection of trace chemicals, such as explosives, in a complex environment containing various interferents has been a difficult challenge. We describe here a hybrid nanosensor based on the electrochemical reduction of TNT and the interaction of the reduction products with conducting polymer nanojunctions in an ionic liquid. The sensor simultaneously measures the electrochemical current from the reduction of TNT and the conductance change of the polymer nanojunction caused from the reduction product. The hybrid detection mechanism, together with the unique selective preconcentration capability of the ionic liquid, provides a selective, fast, and sensitive detection of TNT. The sensor, in its current form, is capable of detecting parts-per-trillion level TNT in the presence of various interferents within a few minutes.

Original language	English (US)
Pages (from-to)	380-384
Number of pages	5
Journal	Nano Letters
Volume	10
Issue number	2
DOIs	https://doi.org/10.1021/nl902382s
State	Published - Feb 10 2010

Keywords

Conducting polymers
Explosive detection
Hybrid sensors
Nanosensors
Nanowires

ASJC Scopus subject areas

Bioengineering
General Chemistry
General Materials Science
Condensed Matter Physics
Mechanical Engineering

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10.1021/nl902382s

Cite this

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title = "A hybrid nanosensor for TNT vapor detection",

abstract = "Real-time detection of trace chemicals, such as explosives, in a complex environment containing various interferents has been a difficult challenge. We describe here a hybrid nanosensor based on the electrochemical reduction of TNT and the interaction of the reduction products with conducting polymer nanojunctions in an ionic liquid. The sensor simultaneously measures the electrochemical current from the reduction of TNT and the conductance change of the polymer nanojunction caused from the reduction product. The hybrid detection mechanism, together with the unique selective preconcentration capability of the ionic liquid, provides a selective, fast, and sensitive detection of TNT. The sensor, in its current form, is capable of detecting parts-per-trillion level TNT in the presence of various interferents within a few minutes.",

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AU - Aguilar, Alvaro Díaz

AU - Forzani, Erica

AU - Leright, Mathew

AU - Tsow, Francis

AU - Cagan, Avi

AU - Iglesias, Rodrigo A.

AU - Nagahara, Larry A.

AU - Amlani, Islamshah

AU - Tsui, Raymond

AU - Tao, Nongjian

PY - 2010/2/10

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N2 - Real-time detection of trace chemicals, such as explosives, in a complex environment containing various interferents has been a difficult challenge. We describe here a hybrid nanosensor based on the electrochemical reduction of TNT and the interaction of the reduction products with conducting polymer nanojunctions in an ionic liquid. The sensor simultaneously measures the electrochemical current from the reduction of TNT and the conductance change of the polymer nanojunction caused from the reduction product. The hybrid detection mechanism, together with the unique selective preconcentration capability of the ionic liquid, provides a selective, fast, and sensitive detection of TNT. The sensor, in its current form, is capable of detecting parts-per-trillion level TNT in the presence of various interferents within a few minutes.

AB - Real-time detection of trace chemicals, such as explosives, in a complex environment containing various interferents has been a difficult challenge. We describe here a hybrid nanosensor based on the electrochemical reduction of TNT and the interaction of the reduction products with conducting polymer nanojunctions in an ionic liquid. The sensor simultaneously measures the electrochemical current from the reduction of TNT and the conductance change of the polymer nanojunction caused from the reduction product. The hybrid detection mechanism, together with the unique selective preconcentration capability of the ionic liquid, provides a selective, fast, and sensitive detection of TNT. The sensor, in its current form, is capable of detecting parts-per-trillion level TNT in the presence of various interferents within a few minutes.

KW - Conducting polymers

KW - Explosive detection

KW - Hybrid sensors

KW - Nanosensors

KW - Nanowires

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A hybrid nanosensor for TNT vapor detection

Abstract

Keywords

ASJC Scopus subject areas

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