Ετικέτες

Πέμπτη 29 Μαρτίου 2018

Potential improvements aimed at high precision δ13C isotopic ratio determinations in CO2 mixtures using optical absorption spectrometry

Publication date: 1 July 2018
Source:Talanta, Volume 184
Author(s): Serguei Koulikov, Sergey Assonov, Ales Fajgelj, Pieter Tans
The manuscript explores some advantages and limitations of laser based optical spectroscopy, aimed at achieving robust, high-reproducibility 13C16O2 and 12C16O2 ratio determinations on the VPDB-CO2 δ13C scale by measuring the absorbance of line pairs of 13C16O2 and 12C16O2. In particular, the sensitivities of spectroscopic lines to both pressure (P) and temperature (T) are discussed. Based on the considerations and estimations presented, a level of reproducibility of the 13C16O2/12C16O2 ratio determinations may be achieved of about 10−6. Thus one may establish an optical spectroscopic measurement technique for robust, high-precision 13C16O2 and 12C16O2 ratio measurements aimed at very low uncertainty. (Notably, creating such an optical instrument and developing technical solutions is beyond the scope of this paper.) The total combined uncertainty will also include the uncertainty component(s) related to the accuracy of calibration on the VPDB-CO2 δ13C scale. Addressing high-accuracy calibrations is presently not straightforward - absolute numerical values of 13C/12C for the VPDB-CO2 scale are not well known. Traditional stable isotope mass-spectrometry uses calibrations vs CO2 evolved from the primary carbonate reference materials; which can hardly be used for calibrating commercial optical stable isotope analysers. In contrast to mass-spectrometry, the major advantage of the laser-based spectrometric technique detailed in this paper is its high robustness. Therefore one can introduce a new spectrometric δ13C characterisation method which, being once well-calibrated on the VPDB-CO2 scale, may not require any further (re-)calibrations. This can be used for characterisation of δ13C in CO2–in-air mixtures with high precision and also with high accuracy. If this technique can be realised with the estimated long-term reproducibility (order of 10−6), it could potentially serve as a more convenient Optical Transfer Standard (OTS), characterising large amounts of CO2 gas mixtures on the VPDB-CO2 δ13C scale without having to compare to carbonate-evolved CO2. Furthermore, if the OTS method proves to be successful, it might be considered for re-defining the VPDB-CO2 δ13C-scale as the ratio of selected CO2 spectroscopic absorbance lines measured at pre-defined T & P conditions.The approach can also be expanded to δ18O characterisation (using 16O12C18O and 16O12C16O absorbance lines) of CO2 gas mixtures and potentially to other isotope ratios of other gases.

Graphical abstract

image


https://ift.tt/2uzFDlX

Δεν υπάρχουν σχόλια:

Δημοσίευση σχολίου

Αναζήτηση αυτού του ιστολογίου