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Comparison of Carbon Isotope Ratio Measurement of the Vanillin Methoxy Group by GC-IRMS and <sup>13</sup>C-qNMR

Markus Greule, Phuong Mai Le, Juris Meija, Zoltán Mester, Frank Keppler

2023Journal of the American Society for Mass Spectrometry10 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide Site-specific carbon isotope ratio measurements by quantitative 13 C NMR ( 13 C-qNMR), Orbitrap-MS, and GC-IRMS offer a new dimension to conventional bulk carbon isotope ratio measurements used in food provenance, forensics, and a number of other applications. While the site-specific measurements of carbon isotope ratios in vanillin by 13 C-qNMR or Orbitrap-MS are powerful new tools in food analysis, there are a limited number of studies regarding the validity of these measurement results. Here we present carbon site-specific measurements of vanillin by GC-IRMS and 13 C-qNMR for methoxy carbon. Carbon isotope delta (δ 13 C) values obtained by these different measurement approaches demonstrate remarkable agreement; in five vanillin samples whose bulk δ 13 C values ranged from −31‰ to −26‰, their δ 13 C values of the methoxy carbon ranged from −62.4‰ to −30.6‰, yet the difference between the results of the two analytical approaches was within ±0.6‰. While the GC-IRMS approach afforded up to 9-fold lower uncertainties and required 100-fold less sample compared to the 13 C-qNMR, the 13 C-qNMR is able to assign δ 13 C values to all carbon atoms in the molecule, not just the cleavable methoxy group.

Topics & Concepts

ChemistryIsotope-ratio mass spectrometryIsotopes of carbonVanillinCarbon fibersCarbon-13 NMRAnalytical Chemistry (journal)OrbitrapIsotopeStable isotope ratioChromatographyMass spectrometryOrganic chemistryTotal organic carbonComposite materialQuantum mechanicsMaterials scienceComposite numberPhysicsIsotope Analysis in EcologyFermentation and Sensory AnalysisBiochemical and biochemical processes
Comparison of Carbon Isotope Ratio Measurement of the Vanillin Methoxy Group by GC-IRMS and <sup>13</sup>C-qNMR | Litcius