Looking for heteroaromatic rings and related isomers as interstellar candidates.
Résumé
Finding complex organic molecules in the interstellar medium (ISM) is a major concern for understanding the possible role of interstellar organic chemistry in the synthesis of prebiotic species. The present interdisciplinary report is a prospective study aimed at helping detection of heteroaromatic compounds or at least of some of their isomers in the ISM. The thermodynamic stabilities of the C(4)H(5)N, C(4)H(4)O, C(4)H(4)S families were calculated using density functional theory (DFT). It was found that pyrrole, furan and thiophene are unambiguously the most stable isomers at the 10-50 K temperatures of the ISM. Several of the less stable isomers were synthesized and flash vacuum thermolysis experiments were performed on these species. Although the detection of pyrrole in the pyrolysis of many compounds has been reported in the literature, we observed that none of its isomers led to pyrrole in these conditions, which suggests that other formation routes are to be considered. On the other hand, these three aromatic compounds present a very high stability, few % been decomposed at 1500 K by flash vacuum thermolysis; these experiments also show a great stability of crotonitrile that is the most stable compound that can be formed in these conditions. The rotational constants, dipole moments and IR frequencies of the low-lying isomers are given to encourage laboratory experiments on these prototype molecules.
Mots clés
Sulfur heterocycle
Oxygen heterocycle
Five membered ring
Nitrogen heterocycle
Theoretical study
Laboratory
Frequency
Dipole moment
Rotational constant
Aromatic compound
Pyrolysis
Thiophene
Furan derivatives
Furan
Pyrrole derivatives
Pyrrole
Density functional
Density functional method
Thermodynamic stability
Synthesis
Organic chemistry
Organic molecule
Complexes
Isomer