Investigating H-atom reactions in small PAHs with imperfect aromaticity: A combined experimental and computational study of indene (C9H8) and indane (C9H10)

Schneiker, A.; Góbi, S.; Ragupathy, G.; Keresztes, B.; Bazsó, G.; Tarczay, G.

doi:10.1063/5.0209722

The Journal of Chemical Physics

2024

DOI: 10.1063/5.0209722

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Investigating H-atom reactions in small PAHs with imperfect aromaticity: A combined experimental and computational study of indene (C9H8) and indane (C9H10)

A. Schneiker,

S. Góbi,

G. Ragupathy

et al.

Abstract: Polycyclic aromatic hydrocarbons (PAHs) are widely recognized as catalysts for interstellar H2 formation. Extensive exploration into the catalytic potential of various PAHs has encompassed both theoretical investigations and experimental studies. In the present study, we focused on studying the reactivity of an imperfect aromatic molecule, indene (C9H8), and its hydrogenated counterpart, indane (C9H10), as potential catalysts for H2 formation within the interstellar medium. The reactions of these molecules wit… Show more

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Cited by 2 publications

References 95 publications

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A chemical link between saturated and unsaturated aldehydes and ketenes in the interstellar medium

Zasimov,

Keresztes,

Góbi

et al. 2024

A&A

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Propenal (CH CHCHO) and propanal (CH CH CHO) have been detected in various regions of the interstellar medium (ISM), from star-forming regions to a comet’s dusty coma. These molecules attract considerable attention due to their structural similarity to aldose sugars and their potential role in prebiotic astrochemistry. Their reactions with H atoms may significantly contribute to the chemical diversity in the ISM and link these molecules with each other and other isomers. In this study, we aimed to investigate the astrophysically relevant low-temperature reactions of propenal and propanal molecules with H atoms to explore possible reaction pathways between these molecules and their isomers. Propenal and propanal were isolated in solid para -H at 3.1 K. This medium, with its weak interactions, provides spectroscopic data close to gas phase values and allows for studying highly reactive short-lived species. Additionally, H atoms can be conveniently generated, they are diffuse, and they react with the isolated molecules. The reactions were monitored using infrared (IR) spectroscopy. Quantum-chemical computations were employed to determine possible reaction paths and aid in spectral assignments. The reaction of CH CHCHO and CH CH CHO with H atoms in the first step results in the production of CH CH • CO / • CH CHCO, CH CH • CO, and CH • CHCHO radicals. Further H-atom reactions of CH • CHCHO and R • CO radicals lead to the formation of methylketene (CH CHCO) as the product of both the reaction of propenal and propanal. The two-step addition of H atoms to CH CHCHO was found tentatively to produce CH CH CHO. The radicals observed in the experiments are likely produced in dark molecular clouds on icy grains, increasing interstellar chemical complexity. The experiments suggest that H-atom reactions with propanal and propenal are important channels for methylketene production. The observed reactions imply that consecutive H-atom addition and H-atom abstraction reactions of propenal and propanal can catalyze interstellar H formation.

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A chemical link between saturated and unsaturated aldehydes and ketenes in the interstellar medium

Zasimov,

Keresztes,

Góbi

et al. 2024

A&A

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Hydrogen ejection from hydrocarbons: Characterization and relevance in soot formation and interstellar chemistry

Hendrix,

Hait,

Michelsen

et al. 2024

Proc. Natl. Acad. Sci. U.S.A.

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Polycyclic aromatic hydrocarbons (PAHs) play a major role in the chemistry of combustion, pyrolysis, and the interstellar medium. Production (or activation) of radical PAHs and propagation of their resulting reactions require efficient dehydrogenation, but the preferred method of hydrogen loss is not well understood. Unimolecular hydrogen ejection (i.e., direct C─H bond fission) and bimolecular radical abstraction are two main candidate pathways. We performed a computational study to characterize the role of H ejection, particularly as a driver for radical-centric hydrocarbon-growth mechanisms and particle formation. Electronic structure calculations establish that C─H bond strengths span a broad range of energies, which can be weaker than 30 kcal/mol in some C 9 and C 13 PAH radicals. At T > 1200 K, calculated thermal rates for hydrogen ejection from weak C─H bonds at zigzag sites on PAH radicals are significantly larger than typical H-abstraction rates. These results are highly relevant in the context of chain reactions of radical species and soot inception under fuel-rich combustion conditions. Furthermore, calculated microcanonical rates that include the additional internal energy released by bond formation (e.g., ring closure to yield C 9 H 9 ) yield significantly higher rates than those associated with full thermalization. These microcanonical considerations are relevant to the astrochemical processes associated with hydrocarbon growth and processing in the low-density interstellar environment.

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Investigating H-atom reactions in small PAHs with imperfect aromaticity: A combined experimental and computational study of indene (C9H8) and indane (C9H10)

Cited by 2 publications

References 95 publications

A chemical link between saturated and unsaturated aldehydes and ketenes in the interstellar medium

A chemical link between saturated and unsaturated aldehydes and ketenes in the interstellar medium

Hydrogen ejection from hydrocarbons: Characterization and relevance in soot formation and interstellar chemistry

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