Photoacoustic spectroscopy with mica and graphene micro-mechanical levers for multicomponent analysis of acetic acid, acetone and methanol mixture

Multilayer graphene and mica cantilevers as part of an optical microphone in combination with CO2 laser emitting in the range of 9–11 μm were employed in a multicomponent analysis of a mixture of acetone, acetic acid and methanol by photoacoustic spectroscopy. Using these elements, the detection lim...

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Bibliographic Details
Published inMicrochemical journal Vol. 144; pp. 203 - 208
Main Authors Suchánek, Jan, Janda, Pavel, Dostál, Michal, Knížek, Antonín, Kubát, Pavel, Roupcová, Petra, Bitala, Petr, Nevrlý, Václav, Zelinger, Zdeněk
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.01.2019
Subjects
Acetic acid
Breath analysis
Cantilever
Multilayer graphene
Multilayer muscovite
Photoacoustic spectroscopy
Multilayer graphene
Photoacoustic spectroscopy
Cantilever
Acetic acid
Multilayer muscovite
Breath analysis
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Summary:Multilayer graphene and mica cantilevers as part of an optical microphone in combination with CO2 laser emitting in the range of 9–11 μm were employed in a multicomponent analysis of a mixture of acetone, acetic acid and methanol by photoacoustic spectroscopy. Using these elements, the detection limits of mica circle cantilever were 0.54, 0.80 and 24.8 ppm for acetic acid, methanol and acetone, respectively; these limits were approximately 5 times lower than the detection limit of the highest-class microphone used in this study. The multicomponent analysis was performed using five selected CO2 laser lines and a classical method of least squares. Despite the inaccuracies of our system, very good agreement between the concentration of acetic acid calculated from the photoacoustic signal and from weighing of concentration standards (~3%) was found when measuring the signal in a 10:1:1 mixture of acetone:acetic acid:methanol at five selected laser lines. The absorption coefficient of acetic acid at 10.24 μm was almost 500 times higher than that of acetone, which showed the good ability of this method to detect acetic acid in a high background of acetone, which can be beneficial in the medical analysis of breath. •development of mica and multilayer graphene cantilevers as part of an optical microphone in photoacoustic spectroscopy•micromechanical elements improved the sensitivity with five times lower detection limits compared to a high-class microphone•first application of the mica cantilever for the multicomponent analysis of a gas mixture using photoacoustic detection
ISSN:0026-265X
1095-9149
DOI:10.1016/j.microc.2018.08.034