Detection of fluorine using laser-induced breakdown spectroscopy and Raman spectroscopy

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Authors

POŘÍZKA Pavel KASKI Saara HRDLIČKA Aleš MODLITBOVÁ Pavlína SLÁDKOVÁ Lucia HEIKKI Hakkanen PROCHAZKA David GADAS Petr ČELKO Ladislav NOVOTNÝ Karel KAISER Jozef NOVOTNÝ Jan

Year of publication 2017
Type Article in Periodical
Magazine / Source Journal of Analytical Atomic Spectrometry
MU Faculty or unit

Faculty of Science

Citation
Doi http://dx.doi.org/10.1039/c7ja00200a
Field Analytic chemistry
Keywords CONCRETE STRUCTURES; CHLORINE; QUANTIFICATION; AIR; IDENTIFICATION; BANDS; LIBS; CL
Description In general, the detection of F and other halogens is challenging through conventional techniques. In this paper, various approaches for the qualitative and quantitative analysis of F using the laser-induced breakdown spectroscopy (LIBS) technique were demonstrated. In LIBS, fluorine detection can be realized by means of atomic lines and molecular bands. For the purposes of our experiment, two sets of pellets with various contents of CaF2, CaCO3 and cellulose were analyzed using a lab-based LIBS system under a He atmosphere. The fluorine atomic line at 685.60 nm was correlated with CaF signals proving their close relationship. Consequently, the limits of detection were determined for both analytical signals. Moreover, conditions necessary for the quantification of F via CaF band signals were estimated. The dependence of the CaF signal on the varying ratio of Ca and F contents was investigated. Finally, a chip of a real CaF2 crystal was prepared and its surface was mapped with Raman and LIBS systems. The obtained elemental and molecular maps showed good numerical correlations. Thus, the yielded results validated the possibility to substitute the fluorine atomic line by non-conventional CaF molecular bands in the qualitative and quantitative LIBS analysis of fluorine.
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