Development of a Toluene detector based on deep UV absorption spectrophotometry using glass and aluminum capillary Tube Gas Cells with a LED source

Sulaiman Khan; David Newport; Stéphane Le Calvé

doi:10.3390/mi10030193

Development of a Toluene detector based on deep UV absorption spectrophotometry using glass and aluminum capillary Tube Gas Cells with a LED source

Sulaiman Khan, David Newport, Stéphane Le Calvé

School of Engineering

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

Abstract

A simple deep-ultraviolet (UV) absorption spectrophotometer based on ultraviolet light-emitting diode (UV LED) was developed for the detection of air-borne toluene with a good sensitivity. A fiber-coupled deep UV-LED was employed as a light source, and a spectrometer was used as a detector with a gas cell in between. 3D printed opto-fluidics connectors were designed to integrate the gas flow with UV light. Two types of hollow core waveguides (HCW) were tested as gas cells: a glass capillary tube with aluminum-coated inner walls and an aluminum capillary tube. The setup was tested for different toluene concentrations (10-100 ppm), and a linear relationship was observed with sensitivities of 0.20 mA·U/ppm and 0.32 mA·U/ppm for the glass and aluminum HCWs, respectively. The corresponding limits of detection were found to be 8.1 ppm and 12.4 ppm, respectively.

Original language	English
Article number	193
Journal	Micromachines
Volume	10
Issue number	3
DOIs	https://doi.org/10.3390/mi10030193
Publication status	Published - 2019

Keywords

Benzene
Capillary tubes
Ethylbenzene and xylene (BTEX)
Gas sensors
Hollow core waveguides
Spectrophotometry
Toluene
Toluene
Ultraviolet light-emitting diode (UV LED)
UV absorption

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10.3390/mi10030193

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@article{609e50aa9a37464b929636902bbb518c,

title = "Development of a Toluene detector based on deep UV absorption spectrophotometry using glass and aluminum capillary Tube Gas Cells with a LED source",

abstract = "A simple deep-ultraviolet (UV) absorption spectrophotometer based on ultraviolet light-emitting diode (UV LED) was developed for the detection of air-borne toluene with a good sensitivity. A fiber-coupled deep UV-LED was employed as a light source, and a spectrometer was used as a detector with a gas cell in between. 3D printed opto-fluidics connectors were designed to integrate the gas flow with UV light. Two types of hollow core waveguides (HCW) were tested as gas cells: a glass capillary tube with aluminum-coated inner walls and an aluminum capillary tube. The setup was tested for different toluene concentrations (10-100 ppm), and a linear relationship was observed with sensitivities of 0.20 mA·U/ppm and 0.32 mA·U/ppm for the glass and aluminum HCWs, respectively. The corresponding limits of detection were found to be 8.1 ppm and 12.4 ppm, respectively.",

keywords = "Benzene, Capillary tubes, Ethylbenzene and xylene (BTEX), Gas sensors, Hollow core waveguides, Spectrophotometry, Toluene, Toluene, Ultraviolet light-emitting diode (UV LED), UV absorption",

author = "Sulaiman Khan and David Newport and {Le Calv{\'e}}, St{\'e}phane",

note = "Publisher Copyright: {\textcopyright} 2019 by the authors.",

year = "2019",

doi = "10.3390/mi10030193",

language = "English",

volume = "10",

journal = "Micromachines",

issn = "2072-666X",

number = "3",

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TY - JOUR

T1 - Development of a Toluene detector based on deep UV absorption spectrophotometry using glass and aluminum capillary Tube Gas Cells with a LED source

AU - Khan, Sulaiman

AU - Newport, David

AU - Le Calvé, Stéphane

PY - 2019

Y1 - 2019

N2 - A simple deep-ultraviolet (UV) absorption spectrophotometer based on ultraviolet light-emitting diode (UV LED) was developed for the detection of air-borne toluene with a good sensitivity. A fiber-coupled deep UV-LED was employed as a light source, and a spectrometer was used as a detector with a gas cell in between. 3D printed opto-fluidics connectors were designed to integrate the gas flow with UV light. Two types of hollow core waveguides (HCW) were tested as gas cells: a glass capillary tube with aluminum-coated inner walls and an aluminum capillary tube. The setup was tested for different toluene concentrations (10-100 ppm), and a linear relationship was observed with sensitivities of 0.20 mA·U/ppm and 0.32 mA·U/ppm for the glass and aluminum HCWs, respectively. The corresponding limits of detection were found to be 8.1 ppm and 12.4 ppm, respectively.

AB - A simple deep-ultraviolet (UV) absorption spectrophotometer based on ultraviolet light-emitting diode (UV LED) was developed for the detection of air-borne toluene with a good sensitivity. A fiber-coupled deep UV-LED was employed as a light source, and a spectrometer was used as a detector with a gas cell in between. 3D printed opto-fluidics connectors were designed to integrate the gas flow with UV light. Two types of hollow core waveguides (HCW) were tested as gas cells: a glass capillary tube with aluminum-coated inner walls and an aluminum capillary tube. The setup was tested for different toluene concentrations (10-100 ppm), and a linear relationship was observed with sensitivities of 0.20 mA·U/ppm and 0.32 mA·U/ppm for the glass and aluminum HCWs, respectively. The corresponding limits of detection were found to be 8.1 ppm and 12.4 ppm, respectively.

KW - Benzene

KW - Capillary tubes

KW - Ethylbenzene and xylene (BTEX)

KW - Gas sensors

KW - Hollow core waveguides

KW - Spectrophotometry

KW - Toluene

KW - Ultraviolet light-emitting diode (UV LED)

KW - UV absorption

UR - http://www.scopus.com/inward/record.url?scp=85063587551&partnerID=8YFLogxK

U2 - 10.3390/mi10030193

DO - 10.3390/mi10030193

M3 - Article

AN - SCOPUS:85063587551

SN - 2072-666X

VL - 10

JO - Micromachines

JF - Micromachines

IS - 3

M1 - 193

ER -

Development of a Toluene detector based on deep UV absorption spectrophotometry using glass and aluminum capillary Tube Gas Cells with a LED source

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