About: Importance of thermal reactivity for hexamethylenetetramine formation from simulated interstellar ices

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type	work Article
Is Part Of	http://hub.abes.fr/edp/periodical/aa/2013/volume_551/issue_2013/w
Subject	ISM: molecules Atomic, molecular, and nuclear data astrochemistry
Title	Importance of thermal reactivity for hexamethylenetetramine formation from simulated interstellar ices
Date	2013-01-01(xsd:dateTime)
has manifestation of work	http://hub.abes.fr/edp/periodical/aa/2013/volume_551/issue_2013/aa20870-12/m/print http://hub.abes.fr/edp/periodical/aa/2013/volume_551/issue_2013/aa20870-12/m/web
related by	http://hub.abes.fr/edp/periodical/aa/2013/volume_551/issue_2013/aa20870-12/authorship/7 http://hub.abes.fr/edp/periodical/aa/2013/volume_551/issue_2013/aa20870-12/authorship/3 http://hub.abes.fr/edp/periodical/aa/2013/volume_551/issue_2013/aa20870-12/authorship/8 http://hub.abes.fr/edp/periodical/aa/2013/volume_551/issue_2013/aa20870-12/authorship/4 http://hub.abes.fr/edp/periodical/aa/2013/volume_551/issue_2013/aa20870-12/authorship/1 http://hub.abes.fr/edp/periodical/aa/2013/volume_551/issue_2013/aa20870-12/authorship/5 http://hub.abes.fr/edp/periodical/aa/2013/volume_551/issue_2013/aa20870-12/authorship/6 http://hub.abes.fr/edp/periodical/aa/2013/volume_551/issue_2013/aa20870-12/authorship/2
Author	Danger Grégoire Chiavassa, T. Theulé, P. Fray, N. Vinogradoff, V. Briani, G. Cottin, H. Duvernay, F.
Abstract	Context. Complex organic molecules are observed in a broad variety of astrophysical objects, but little is known about their formation mechanism. Laboratory simulations on interstellar ice analogues are therefore crucial for understanding the origin of these complex organic molecules. In this context, we focus on the thermal reactivity for the formation of the organic residue obtained after photolysis at 25 K of the interstellar ice analogue (H 2O:CH 3OH:NH 3) warmed to 300 K. Aims. We determine the formation mechanism of one major product detected in the organic residue: hexamethylenetetramine (HMT). We compare the warming of the photolysed interstellar ice analogue with the warming of the two non-photolysed specific ice mixtures H 2CO:NH 3:HCOOH and CH 2NH:HCOOH, which are used as references. Using both general and specific approaches, we show the precise role of the UV photons and the thermal processing in the HMT formation. Methods. We used Fourier transform infrared spectroscopy (FTIR) to monitor the chemical changes induced by the heating of the photolysed ice analogue and characterize some important species that will subsequently evolve in the formation of HMT in the residue. Results. We show that the thermal processes play a key role in the HMT formation in photolysed ice analogues heated at 300 K. We identify the stable intermediates in the HMT formation that are formed during the warming: the aminomethanol (NH 2CH 2OH) and the protonated ion trimethyletriamine (TMTH +, C 3H 10N 3+). We also identify for the first time a new product in the organic residue, the polymethylenimine PMI (-(CH 2 -NH) n). Results from this study will be interesting for the analysis of the forthcoming Rosetta mission.
article type	research-article
publisher identifier	aa20870-12
Date Copyrighted	2013-01-01(xsd:dateTime)
Rights	© ESO, 2013
Rights Holder	ESO
is part of this journal	Astronomy & Astrophysics
is primary topic of	http://hub.abes.fr/edp/periodical/aa/2013/volume_551/issue_2013/aa20870-12/w/record

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