Attenuated Total Reflectance FTIR Detection and Quantification of Low Concentrations of Aqueous Polyatomic Anions

Hebert, Gretchen N.; Odom, Matthew A.; Bowman, Stephanie C.; Strauss, Steven H.

doi:10.1021/ac034915i

Cited by 37 publications

(27 citation statements)

References 24 publications

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“…Although they are important aspects in trace determination, there will be separate discussion about problems specifically attributed to analysis of particular matrices and also preconcentration and sample clean-up methods. Also some rather rarely used methods in routine laboratories will not be presented in details such as 17 F NMR [30], which offers a very low sensitivity, but also some possibilities of determination branched PFASs, as well as Fourier transform infrared spectroscopy [31], or radiochemical methods [32]. …”

Section: Introductionmentioning

confidence: 99%

Recent developments in methods for analysis of perfluorinated persistent pollutants

Trojanowicz

Koc

2013

Microchim Acta

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Perfluoroalkyl substances (PFASs) are proliferated into the environment on a global scale and present in the organisms of animals and humans even in remote locations. Persistent organic pollutants of that kind therefore have stimulated substantial improvement in analytical methods. The aim of this review is to present recent achievements in PFASs determination in various matrices with different methods and its comparison to measurements of Total Organic Fluorine (TOF). Analytical methods used for PFASs determinations are dominated by chromatography, mostly in combination with mass spectrometric detection. However, HPLC may be also hyphenated with conductivity or fluorimetric detection, and gas chromatography may be combined with flame ionization or electron capture detection. The presence of a large number of PFASs species in environmental and biological samples necessitates parallel attempts to develop a total PFASs index that reflects the total content of PFASs in various matrices. Increasing attention is currently paid to the determination of branched isomers of PFASs, and their determination in food.FigureThe aim of this review is to present recent achievements in perfluoroalkyl substances (PFASs) determination in various matrices with different methods and its comparison to measurements of Total Organic Fluorine (TOF). Increasing attention is currently paid to the determination of branched isomers of PFASs, and their determination in food.

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Section: Introductionmentioning

confidence: 99%

Recent developments in methods for analysis of perfluorinated persistent pollutants

Trojanowicz

Koc

2013

Microchim Acta

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“…Indeed, while FTIR is capable of detecting a given compound in the ‰-ppm range depending on instrumentation set-up, optical path length, duration of analysis, such values can be detected only under "ideal" conditions (e.g. Hebert et al, 2004;Sessa et al, 2011). However, since FTIR is not an element specific spectroscopy, there might be an overlap between the signal of the substance and the signal of the matrix, thereby making the detection more difficult and shifting its limit towards significantly higher concentrations.…”

Section: Assessment Of Phytolith Extracts Purity and Chemical Interfementioning

confidence: 99%

When the carbon being dated is not what you think it is: Insights from phytolith carbon research

Santos

Armand

Alexandre

2018

Quaternary Science Reviews

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For proper interpretation of radiocarbon (14 C) age results, the carbon fraction being dated must be identified beforehand, ideally as a single homogeneous entity that best represents the event being studied. Radiocarbon dating of fossil phytoliths (biosilica formed in living higher-plants) has been used in a number of archaeology and paleoenvironmental studies. More precisely, the carbon occlusion (phytC) has been 14 C dated. This method relies on the phytC being photosynthetic in origin, so that its 14 C signature is similar to that of the host plant. However, we have recently presented overwhelming evidence that phytC in modern plants is made up of a mixture of carbon photosynthesized by the plant (from atmospheric CO 2) and soil carbon comprised of multiple 14 C signatures (ages). The discussion presented here is based on our assessments of phytC 14 C signatures, their chemical nature, location, origin and fate as well as the current state of knowledge on plant cell silica interactions with biomolecules. Finally, regardless of the fact that there are cases where fossil phytC 14 C results appear to match expected values, the impossibility of establishing a priori either the amount of the soil carbon contribution to phytC or the mean 14 C age of its occluded mixed pool precludes the use of phytoliths as a reliable 14 C dating tool.

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“…2 Perchlorate is a component of solid propellants for rockets and its presence in water has become a significant environmental concern in many western states. 3 Perfluorooctanesulfonate was, for decades a key ingredient in aqueous film-forming foams (AFFFs) used to extinguish liquid fuel fires on aircraft carriers and military air bases as well as civilian airports. 4 …”

Section: (Detection Separation and Recovery Of Aqueous Ions With Rementioning

confidence: 99%

Testing a High-Sensitivity ATR FTIR Water Monitor for Ionic CWA Breakdown Products

Strauss¹

2003

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Attenuated Total Reflectance FTIR Detection and Quantification of Low Concentrations of Aqueous Polyatomic Anions

Cited by 37 publications

References 24 publications

Recent developments in methods for analysis of perfluorinated persistent pollutants

Recent developments in methods for analysis of perfluorinated persistent pollutants

When the carbon being dated is not what you think it is: Insights from phytolith carbon research

Testing a High-Sensitivity ATR FTIR Water Monitor for Ionic CWA Breakdown Products

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