About: Formation of interstellar propanal and 1-propanol ice: a pathway involving solid-state CO hydrogenation

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type	work Article
Is Part Of	http://hub.abes.fr/edp/periodical/aa/2019/volume_627/issue_2019/w
Subject	Interstellar and circumstellar matter astrobiology ISM: abundances ISM: clouds ISM: molecules methods: laboratory: solid state astrochemistry
Title	Formation of interstellar propanal and 1-propanol ice: a pathway involving solid-state CO hydrogenation
Date	2019-01-01(xsd:dateTime)
has manifestation of work	http://hub.abes.fr/edp/periodical/aa/2019/volume_627/issue_2019/aa35217-19/m/print http://hub.abes.fr/edp/periodical/aa/2019/volume_627/issue_2019/aa35217-19/m/web
related by	http://hub.abes.fr/edp/periodical/aa/2019/volume_627/issue_2019/aa35217-19/authorship/1 http://hub.abes.fr/edp/periodical/aa/2019/volume_627/issue_2019/aa35217-19/authorship/3 http://hub.abes.fr/edp/periodical/aa/2019/volume_627/issue_2019/aa35217-19/authorship/4 http://hub.abes.fr/edp/periodical/aa/2019/volume_627/issue_2019/aa35217-19/authorship/5 http://hub.abes.fr/edp/periodical/aa/2019/volume_627/issue_2019/aa35217-19/authorship/6 http://hub.abes.fr/edp/periodical/aa/2019/volume_627/issue_2019/aa35217-19/authorship/7 http://hub.abes.fr/edp/periodical/aa/2019/volume_627/issue_2019/aa35217-19/authorship/8 http://hub.abes.fr/edp/periodical/aa/2019/volume_627/issue_2019/aa35217-19/authorship/9 http://hub.abes.fr/edp/periodical/aa/2019/volume_627/issue_2019/aa35217-19/authorship/2
Author	Chuang, K.-J. Qasim, D. Fedoseev, G. Ioppolo, S. He, J. Taquet, V. van Dishoeck, E. F. Lamberts, T. Linnartz, H.
Abstract	Context. 1-propanol (CH 3CH 2CH 2OH) is a three carbon-bearing representative of the primary linear alcohols that may have its origin in the cold dark cores in interstellar space. To test this, we investigated in the laboratory whether 1-propanol ice can be formed along pathways possibly relevant to the prestellar core phase. Aims. We aim to show in a two-step approach that 1-propanol can be formed through reaction steps that are expected to take place during the heavy CO freeze-out stage by adding C 2H 2 into the CO + H hydrogenation network via the formation of propanal (CH 3CH 2CHO) as an intermediate and its subsequent hydrogenation. Methods. Temperature programmed desorption-quadrupole mass spectrometry (TPD-QMS) was used to identify the newly formed propanal and 1-propanol. Reflection absorption infrared spectroscopy (RAIRS) was used as a complementary diagnostic tool. The mechanisms that can contribute to the formation of solid-state propanal and 1-propanol, as well as other organic compounds, during the heavy CO freeze-out stage are constrained by both laboratory experiments and theoretical calculations. Results. Here it is shown that recombination of HCO radicals formed upon CO hydrogenation with radicals formed via C 2H 2 processing - H 2CCH and H 3CCH 2 - offers possible reaction pathways to solid-state propanal and 1-propanol formation. This extends the already important role of the CO hydrogenation chain to the formation of larger complex organic molecules. The results are compared with ALMA observations. The resulting 1-propanol:propanal ratio concludes an upper limit of <0.35−0.55, which is complemented by computationally derived activation barriers in addition to the experimental results.
article type	research-article
publisher identifier	aa35217-19
Date Copyrighted	2019-01-01(xsd:dateTime)
Rights	© ESO 2019
Rights Holder	ESO
is part of this journal	Astronomy & Astrophysics
is primary topic of	http://hub.abes.fr/edp/periodical/aa/2019/volume_627/issue_2019/aa35217-19/w/record

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