Sulfur isotope analyses using 3× elemental analysis/isotope ratio mass spectrometry: Saving helium and energy while reducing analytical time and costs
Détails
Télécharger: Spangenberg and Bosco-Santos_2024_3-EA-IRMS sulfur isotope analysis.pdf (2292.49 [Ko])
Etat: Public
Version: Final published version
Licence: CC BY-NC-ND 4.0
Etat: Public
Version: Final published version
Licence: CC BY-NC-ND 4.0
ID Serval
serval:BIB_E5B86959B50B
Type
Article: article d'un périodique ou d'un magazine.
Collection
Publications
Institution
Titre
Sulfur isotope analyses using 3× elemental analysis/isotope ratio mass spectrometry: Saving helium and energy while reducing analytical time and costs
Périodique
Rapid Communications in Mass Spectrometry
ISSN
0951-4198
1097-0231
1097-0231
ISSN-L
0951-4198
Statut éditorial
Publié
Date de publication
15/10/2024
Peer-reviewed
Oui
Volume
38
Numéro
19
Pages
e9866
Langue
anglais
Résumé
Helium (He) and energy shortages have caused price increases and reduced their availability. Using three combustion reactions per acquisition of carbon and nitrogen isotope ratios saves 50% He and energy during the elemental analysis/isotope ratio mass spectrometry (EA/IRMS). This approach needs to be tested for sulfur isotope (δ <sup>34</sup> S) analyses.
A new method to measure δ <sup>34</sup> S in three sequential combustion reactions within one EA/IRMS acquisition was developed. The same material or blank samples could be used in the three reactions. After SO <sub>2</sub> was used, a N <sub>2</sub> purging method was employed to prolong the lifetime of the valves in the EA/IRMS interface. The 3×EA/IRMS was applied to measure δ <sup>34</sup> S in precious samples, such as Ag <sub>2</sub> S from acid-volatile and chromium-reducible sulfur extracted with a multiple-port setup.
The 3×EA/IRMS-δ <sup>34</sup> S method was validated with replicate analyses of international reference materials and laboratory standards with a wide range of mineralogical compositions and δ <sup>34</sup> S values. The method provided a strategic advantage for the δ <sup>34</sup> S measurements of small precious samples (measured between blanks). The accuracy and precision of the 3×EA/IRMS values effectively matched those obtained using conventional EA/IRMS, with good agreement between the mean ± SD values and the recommended values with their uncertainties.
Compared with the conventional EA/IRMS, the proposed method provides accurate and precise δ <sup>34</sup> S measurements of the sulfate and sulfide samples while saving approximately 50% of He, energy, SO <sub>2</sub> reference gas, O <sub>2</sub> , analysis time, and cost. Notably, 3×EA/IRMS can provide up to three δ <sup>34</sup> S values unaffected by memory effects.
A new method to measure δ <sup>34</sup> S in three sequential combustion reactions within one EA/IRMS acquisition was developed. The same material or blank samples could be used in the three reactions. After SO <sub>2</sub> was used, a N <sub>2</sub> purging method was employed to prolong the lifetime of the valves in the EA/IRMS interface. The 3×EA/IRMS was applied to measure δ <sup>34</sup> S in precious samples, such as Ag <sub>2</sub> S from acid-volatile and chromium-reducible sulfur extracted with a multiple-port setup.
The 3×EA/IRMS-δ <sup>34</sup> S method was validated with replicate analyses of international reference materials and laboratory standards with a wide range of mineralogical compositions and δ <sup>34</sup> S values. The method provided a strategic advantage for the δ <sup>34</sup> S measurements of small precious samples (measured between blanks). The accuracy and precision of the 3×EA/IRMS values effectively matched those obtained using conventional EA/IRMS, with good agreement between the mean ± SD values and the recommended values with their uncertainties.
Compared with the conventional EA/IRMS, the proposed method provides accurate and precise δ <sup>34</sup> S measurements of the sulfate and sulfide samples while saving approximately 50% of He, energy, SO <sub>2</sub> reference gas, O <sub>2</sub> , analysis time, and cost. Notably, 3×EA/IRMS can provide up to three δ <sup>34</sup> S values unaffected by memory effects.
Pubmed
Open Access
Oui
Financement(s)
Université de Lausanne
Fonds national suisse
Création de la notice
29/07/2024 13:34
Dernière modification de la notice
21/08/2024 6:23