Determination of 1-methyl-1H-1,2,4-triazole in soils contaminated by rocket fuel using solid-phase microextraction, isotope dilution and gas chromatography–mass spectrometry

Yegemova, Saltanat; Bakaikina, Nadezhda V.; Kenessov, Bulat; Kozieł, Jacek A.; Nauryzbayev, Mikhail

doi:10.1016/j.talanta.2015.05.045

Cited by 34 publications

(20 citation statements)

References 27 publications

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“…As for commercial fibers, their use in soil analysis still has many potentials and they have been used not only in method development for new harmful contaminants [100][101][102] but rather as an analytical tool to carry out other studies, principally with ecological-environmental purposes. Indeed, given its analytical features, SPME allows for the determination of analyte free concentration and for this reason it has been used in bioavailability [103], bio-accessibility [104], and soil sorption studies involving the binding potential of dissolved organic matter (DOM) and the effects of bioremediation on contaminated industrial and agricultural soils [105,106].…”

Section: Soilmentioning

confidence: 99%

Recent Applications and Newly Developed Strategies of Solid-Phase Microextraction in Contaminant Analysis: Through the Environment to Humans

Naccarato

Tagarelli

2019

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The present review aims to describe the recent and most impactful applications in pollutant analysis using solid-phase microextraction (SPME) technology in environmental, food, and bio-clinical analysis. The covered papers were published in the last 5 years (2014–2019) thus providing the reader with information about the current state-of-the-art and the future potential directions of the research in pollutant monitoring using SPME. To this end, we revised the studies focused on the investigation of persistent organic pollutants (POPs), pesticides, and emerging pollutants (EPs) including personal care products (PPCPs), in different environmental, food, and bio-clinical matrices. We especially emphasized the role that SPME is having in contaminant surveys following the path that goes from the environment to humans passing through the food web. Besides, this review covers the last technological developments encompassing the use of novel extraction coatings (e.g., metal-organic frameworks, covalent organic frameworks, PDMS-overcoated fiber), geometries (e.g., Arrow-SPME, multiple monolithic fiber-SPME), approaches (e.g., vacuum and cold fiber SPME), and on-site devices. The applications of SPME hyphenated with ambient mass spectrometry have also been described.

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Section: Soilmentioning

confidence: 99%

Recent Applications and Newly Developed Strategies of Solid-Phase Microextraction in Contaminant Analysis: Through the Environment to Humans

Naccarato

Tagarelli

2019

Separations

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“…Quantification using SA and IS calibrations requires spiking of soils with standards of analytes and an internal standard, respectively, followed by equilibration. Equilibration may be enhanced by the increase of temperature and/or addition of water [17]. The aim of this experiment was to establish time required for equilibration of spiked soils at different temperatures.…”

Section: Equilibration Of Btex In Soils With Different Physicochemicamentioning

confidence: 99%

Quantification of BTEX in Soil by Headspace SPME–GC–MS Using Combined Standard Addition and Internal Standard Calibration

et al. 2017

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There is a great demand for simple, fast and accurate methods for quantification of volatile organic contaminants in soil samples. Solid-phase microextraction (SPME) has a huge potential for this purpose, but its application is limited by insufficient accuracy caused by a matrix effect. The aim of this research was to develop the method for BTEX quantification in soil using combined standard addition (SA) and internal standard (IS) calibration. Deuterated benzene (benzene-d6) was used as the internal standard for all analytes. The optimized method includes spiking replicate samples with different concentrations of BTEX standards and the same concentration of benzene-d6, equilibration of soil samples at 40 °C during 2 h, and SPME-GC-MS analysis. Precision and accuracy of IS and SA methods were compared on different soil matrices. Combined SA + IS method provided more precise calibration plots compared to the conventional SA calibration. The SA + IS calibration provided more precise and accurate results compared with a reference method based on solvent extraction followed by GC-MS when applied to BTEX quantification in real soil samples (spiked with diesel fuel and aged). Recoveries of BTEX from soil samples spiked with known concentrations of analytes using the developed method were in the range of 73-130% with RSD values less than 15% for all BTEX. The proposed simultaneous standard addition and internal standard approach can be advantageous and adopted for improved quantification of other toxic VOCs in soil.

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“…Because of so many affecting factors, extraction effectiveness of analytes from different soils may easily vary by an order of magnitude [36]. This makes quantification of organic compounds using a simple external standard approach inaccurate.…”

Section: Kfh -Analyte Distribution Constant Between Fiber and Headspamentioning

confidence: 99%

“…The magnitude of a matrix effect depends on analyte properties, the most important of which are: a) hydrophobicity, b) volatility, c) acidity/basicity. For example, an increase of a water content in soil increases the SPME effectiveness for hydrophobic compounds while polar compounds become stronger retained by wet soil [20,36].…”

Section: Kfh -Analyte Distribution Constant Between Fiber and Headspamentioning

confidence: 99%

Perspectives and challenges of on-site quantification of organic pollutants in soils using solid-phase microextraction

Kenessov

Kozieł

Bakaikina

et al. 2016

TrAC Trends in Analytical Chemistry

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This study explores the current state-of-the-art progress toward on-site quantification of organic pollutants in soils with solid-phase microextraction (SPME). In spite of many available methods, only few publications report on-site analyses of soil samples by SPME. To date, the only application of SPME for the on-site quantification of organic pollutants in soil has been devoted to trichloroethylene. The problem of matrix effects limiting quantification by external standard calibration is discussed. Efficiencies of available approaches for decreasing and controlling matrix effects are evaluated and compared. SPME from a soil sample headspace with internal standard calibration was identified as one of the promising approaches to achieve fast, simple, precise, and accurate on-site quantification of a wide range of organic pollutants in soil. Cold-fiber SPME has a significant development potential, because it is capable of providing lowest detection limits together with a minimum matrix effect. Perspectives for future development of the field are outlined.

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Determination of 1-methyl-1H-1,2,4-triazole in soils contaminated by rocket fuel using solid-phase microextraction, isotope dilution and gas chromatography–mass spectrometry

Cited by 34 publications

References 27 publications

Recent Applications and Newly Developed Strategies of Solid-Phase Microextraction in Contaminant Analysis: Through the Environment to Humans

Recent Applications and Newly Developed Strategies of Solid-Phase Microextraction in Contaminant Analysis: Through the Environment to Humans

Quantification of BTEX in Soil by Headspace SPME–GC–MS Using Combined Standard Addition and Internal Standard Calibration

Perspectives and challenges of on-site quantification of organic pollutants in soils using solid-phase microextraction

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