Conversion of carbon into CF4 for SI-traceable measurements of absolute carbon isotope amount ratios: A feasibility study

摘要

The feasibility of performing SI-traceable carbon isotope amount ratio measurements following Conversion of carbon into CF4 was studied. A procedure for, the direct fluorination of carbon with elemental fluorine was developed, and the conversion step was checked for losses, blank contributions, and the absence of systematic isotope effects. Gas chromatography was used to identify and quantify the gaseous fluorination products and to isolate CF4 from byproducts. After fluorination of graphite carbon, CF4 and perfluoroalkanes with up to six carbon atoms were observed as reaction. products. 4 Within an uncertainty of 10%,. the graphite carbon was fully recovered in the gaseous carbon fluorides, with the main product being CF4 (80-90%) and. C2F6 as the major byproduct. The fluorination and GC procedures were found to introduce an alteration not bigger-than 0.03 +/- 0.04parts per thousand on the isotopic composition of CF4. Carbon blank contributions introduced during the fluorination procedure were below 0.5% relative to typical sample of 4 mg of carbon. For two of the materials investigated, the carbon isotope ratios measured on a differential mass spectrometer were reproducible within a standard deviation of similar to0.1parts per thousand for several individual fluorinations. For these materials, the developed fluorination procedure is a straightforward process, which can be used as a foundation to establish SI-traceable measurements of carbon isotope amount ratios. However, for the third graphite material the formation of byproducts, (C2F6- C6F14) was found to induce significant isotopic fractionation. [References: 24]