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High-Definition Ion Mobility/Mass Spectrometry with Structural Isotopic Shifts for Nominally Isobaric Isotopologues

Pratima Pathak, Alexandre A. Shvartsburg

2023The Journal of Physical Chemistry A11 citationsDOI

Abstract

We had reported the isotopic envelopes in differential IMS (FAIMS) separations depending on the ion structure. However, this new approach to distinguish isomers was constrained by the unit-mass resolution commingling all nominally isobaric isotopologues. Here, we directly couple high-definition FAIMS to ultrahigh-resolution (Orbitrap) MS and employ the resulting platform to explore the FAIMS spectra for isotopic fine structure. The peak shifts therein for isotopologues of halogenated anilines with 15 N and 13 C (split by 6 mDa) in N 2 /CO 2 buffers dramatically differ, more than for the 13 C, 37 Cl, or 81 Br species apart by 1 or 2 Da. The shifts in FAIMS space upon different elemental isotopic substitutions are orthogonal mutually and to the underlying separations, forming fingerprint multidimensional matrices and 3-D trajectories across gas compositions that redundantly delineate all isomers considered. The interlocking instrumental and methodological upgrades in this work take the structural isotopic shift approach to the next level.

Topics & Concepts

IsotopologueIsobaric processChemistryIon-mobility spectrometryMass spectrometryOrbitrapIsotopeIonIsotopic shiftResolution (logic)Isotope analysisAnalytical Chemistry (journal)MoleculeChromatographyGeologyPhysicsOrganic chemistryThermodynamicsArtificial intelligenceComputer scienceQuantum mechanicsOceanographyMass Spectrometry Techniques and ApplicationsAnalytical Chemistry and ChromatographyIsotope Analysis in Ecology
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