An Experimental and Theoretical Investigation into the Formation of Ketene (H2CCO) and Ethynol (HCCOH) in Interstellar Analog Ices

An Experimental and Theoretical Investigation into the Formation of Ketene (H2CCO) and Ethynol (HCCOH) in Interstellar Analog Ices

The formation of isomers of C2H2O-ketene (H2CCO), ethynol (HCCOH), and oxirene (c-CHCHO)-was investigated in interstellar ice analogs composed of carbon monoxide and water. Using tunable photoionization time-of-flight mass spectrometry to selectively ionize the isomer of interest, ketene and ethynol...

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Veröffentlicht in:The Astrophysical journal 2020-06, Vol.896 (1), p.88
Hauptverfasser: Turner, Andrew M., Koutsogiannis, Andreas S., Kleimeier, N. Fabian, Bergantini, Alexandre, Zhu, Cheng, Fortenberry, Ryan C., Kaiser, Ralf I.
Format: Artikel
Sprache:eng
Schlagworte:
Analogs
Astrochemistry
Astrophysics
Carbon monoxide
Chemical abundances
Ice
Interdisciplinary astronomy
Interstellar matter
Interstellar molecules
Ionization
Ions
Isomers
Laboratory astrophysics
Mass spectrometry
Organic chemistry
Organic compounds
Photoionization
Reaction products
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Beschreibung
Zusammenfassung:The formation of isomers of C2H2O-ketene (H2CCO), ethynol (HCCOH), and oxirene (c-CHCHO)-was investigated in interstellar ice analogs composed of carbon monoxide and water. Using tunable photoionization time-of-flight mass spectrometry to selectively ionize the isomer of interest, ketene and ethynol were detected as reaction products, but oxirene remains elusive. These findings demonstrate that organic compounds that are precursors to complex organic molecules can form without an organic source of carbon. Furthermore, we report the first plausible detection of ethynol in astrophysically relevant ices. These investigations were supported by theoretical calculations describing reaction energies, pathways, ionization energies, and harmonic frequencies.
ISSN:0004-637X
1538-4357
DOI:10.3847/1538-4357/ab8dbc