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Methanol Formation through Reaction of Low-energy CH<sub>3</sub> <sup>+</sup> Ions with an Amorphous Solid Water Surface at Low Temperature

Yoichi Nakai, W. M. C. Sameera, Kenji Furuya, H. Hidaka, Atsuki Ishibashi, Naoki Watanabe

2023The Astrophysical Journal12 citationsDOIOpen Access PDF

Abstract

Abstract We have performed experimental investigations of methanol formation via the reactions of low-energy CH 3 + ions with an amorphous solid water (ASW) surface at ∼10 K. A newly developed experimental apparatus enabled irradiation of the ASW surface by several eV ions and detection of trace amounts of reaction products on the surface. It was found that methanol molecules were produced by low-energy CH 3 + irradiation of the ASW surface and that hydroxy groups in the produced methanol originated from water molecules in the ASW, as predicted in a previous theoretical study. Little temperature dependence of the observed methanol intensity is apparent in the temperature range 12–60 K. Ab initio molecular dynamics simulations under constant-temperature conditions of 10 K suggested that this reaction spontaneously produced a methanol molecule and an H 3 O + ion, regardless of the contact point of CH 3 + on the ASW surface. We have performed a simulation with an astrochemical model under molecular-cloud conditions, where the reaction between CH 3 + and H 2 O ice, leading to methanol formation, was included. We found that the impact of the reaction on methanol abundance was limited only at the edge of the molecular cloud (&lt;1 mag) because of the low abundance of CH 3 + in the gas phase, whereas the reaction between the abundant molecular ion (HCO + ) and H 2 O ice, which has not yet been confirmed experimentally, can considerably affect the abundance of a complex organic molecule. This work sheds light on a new type of reaction between molecular ions and ice surfaces that should be included in astrochemical models.

Topics & Concepts

MethanolIonMoleculeAstrochemistryAmorphous solidMolecular dynamicsActivation energyAnalytical Chemistry (journal)IrradiationReaction rate constantChemistryPhysical chemistryPhysicsCrystallographyKineticsComputational chemistryOrganic chemistryAstrophysicsInterstellar mediumQuantum mechanicsGalaxyNuclear physicsAstrophysics and Star Formation StudiesAtmospheric Ozone and ClimateAdvanced Chemical Physics Studies
Methanol Formation through Reaction of Low-energy CH<sub>3</sub> <sup>+</sup> Ions with an Amorphous Solid Water Surface at Low Temperature | Litcius