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  • Compound-specific hydrogen isotope analysis of fluorine-, chlorine-, bromine- and iodine-bearing organics using gas chromatography-chromium-based high-temperature conversion (Cr/HTC) isotope ratio mass spectrometry.

Compound-specific hydrogen isotope analysis of fluorine-, chlorine-, bromine- and iodine-bearing organics using gas chromatography-chromium-based high-temperature conversion (Cr/HTC) isotope ratio mass spectrometry.

Rapid communications in mass spectrometry : RCM (2017-04-05)
Julian Renpenning, Arndt Schimmelmann, Matthias Gehre
ABSTRACT

The conventional high-temperature conversion (HTC) approach towards hydrogen compound-specific isotope analysis (CSIA) of halogen-bearing (F, Cl, Br, I) organics suffers from incomplete H The performance of the modified gas chromatography/chromium-based high-temperature conversion (GC-Cr/HTC) system was monitored and optimized using an ion trap mass spectrometer. Quantitative conversion of organic hydrogen into H The overall hydrogen isotope analysis of F-, Cl-, Br- and I-bearing organics via GC-Cr/HTC-IRMS achieved a precision σ ≤ 3 mUr and an accuracy within ±5 mUr along the VSMOW-SLAP scale compared with the measured isotope compositions resulting from both validation methods, off-line and on-line. The same analytical performance as for single-compound GC-Cr/HTC-IRMS was achieved compound-specifically for mixtures of halogenated organics following GC separation to baseline resolution. GC-Cr/HTC technology can be implemented in existing analytical equipment using commercially available materials to provide a versatile tool for hydrogen CSIA of halogenated and non-halogenated organics. Copyright © 2017 John Wiley & Sons, Ltd.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
1,1,2,2-Tetrachloroethane, reagent grade, ≥98%
Sigma-Aldrich
1,3-Dichlorobenzene, 98%
Sigma-Aldrich
Fluorobenzene, 99%
Sigma-Aldrich
1,3,5-Trichlorobenzene, 99%
Sigma-Aldrich
Tetradecane, ≥99%
Sigma-Aldrich
Pentadecane, ≥99%
Sigma-Aldrich
1,4-Dichlorobenzene, ≥99%