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The Formation of Glycolonitrile (HOCH<sub>2</sub>CN) from Reactions of C<sup>+</sup> with HCN and HNC on Icy Grain Mantles

David E. Woon

2020The Astrophysical Journal15 citationsDOIOpen Access PDF

Abstract

Abstract Quantum chemical cluster calculations show that reactions of C + with HCN or HNC embedded in the surface of an icy grain mantle can account for the formation of a recently detected molecule, glycolonitrile, which is considered to be an important precursor to ribonucleic compounds. Reactions of cations deposited on ice mantles with minimal kinetic energy have been found theoretically to result in previously unknown pathways to significant organic compounds in protostellar systems and the interstellar medium. In density functional theory cluster calculations involving up to 24H 2 O, C + reacts consistently with HCN embedded in ice to yield the neutral HOCHNC radical with no barrier, along with H 3 O + as a byproduct. If HOCHNC then reacts with H, three species can be formed: HOCH 2 NC (isocyanomethanol), HOCH 2 CN (glycolonitrile), and HOCHNCH. For the C + + HNC reaction on ice, the HOCHCN and H 2 OCCN radicals form as intermediates, the first of which is another direct precursor to glycolonitrile via H addition. In addition to characterizing reaction pathways, predictions are provided of the vibrational and electronic spectra of the HCN and HNC starting clusters and the HOCHNC ice-bound intermediate.

Topics & Concepts

AstrochemistryPhysicsCluster (spacecraft)RadicalInterstellar iceSpectral lineKinetic energyChemical physicsInterstellar mediumChemical reactionYield (engineering)Density functional theoryPhotochemistryPhotodissociationCosmochemistryAtomic physicsWater iceMolecular cloudAstrobiologyInterstellar cloudProtostarCosmic dustMolecular physicsReaction intermediateInfrared spectroscopyChemical kineticsMoleculeReaction mechanismChemistryChemical reaction kineticsPhysical chemistryPotential energyFormation and evolution of the Solar SystemElectronMantle (geology)Potential energy surfaceAstrophysics and Star Formation StudiesAdvanced Chemical Physics StudiesFullerene Chemistry and Applications
The Formation of Glycolonitrile (HOCH<sub>2</sub>CN) from Reactions of C<sup>+</sup> with HCN and HNC on Icy Grain Mantles | Litcius