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A Photoionization Reflectron Time‐of‐Flight Mass Spectrometric Study on the Detection of Ethynamine (HCCNH<sub>2</sub>) and 2H‐Azirine (c‐H<sub>2</sub>CCHN)

Andrew M. Turner, Sankhabrata Chandra, Ryan C. Fortenberry, Ralf I. Kaiser

2021ChemPhysChem24 citationsDOI

Abstract

Abstract Ices of acetylene (C 2 H 2 ) and ammonia (NH 3 ) were irradiated with energetic electrons to simulate interstellar ices processed by galactic cosmic rays in order to investigate the formation of C 2 H 3 N isomers. Supported by quantum chemical calculations, experiments detected product molecules as they sublime from the ices using photoionization reflectron time‐of‐flight mass spectrometry (PI‐ReTOF‐MS). Isotopically‐labeled ices confirmed the C 2 H 3 N assignments while photon energies of 8.81 eV, 9.80 eV, and 10.49 eV were utilized to discriminate isomers based on their known ionization energies. Results indicate the formation of ethynamine (HCCNH 2 ) and 2H‐azirine (c‐H 2 CCHN) in the irradiated C 2 H 2 :NH 3 ices, and the energetics of their formation mechanisms are discussed. These findings suggest that these two isomers can form in interstellar ices and, upon sublimation during the hot core phase, could be detected using radio astronomy.

Topics & Concepts

ReflectronPhotoionizationMass spectrometryAzirineTime of flightChemistryTime-of-flight mass spectrometryAnalytical Chemistry (journal)IonIonizationChromatographyOrganic chemistryRing (chemistry)Mass Spectrometry Techniques and ApplicationsChemical Reactions and MechanismsAtmospheric chemistry and aerosols