Litcius/Paper detail

Inception of Carbonaceous Nanostructures via Hydrogen-Abstraction Phenylacetylene-Addition Mechanism

Hanfeng Jin, Lili Ye, Jiuzhong Yang, Yu Jiang, Long Zhao, Aamir Farooq

2021Journal of the American Chemical Society28 citationsDOI

Abstract

Sufficient experimental evidence has suggested that polycyclic aromatic hydrocarbons are the building blocks of carbonaceous nanostructures in combustion and circumstellar envelops of carbon-rich stars, but their fundamental formation mechanisms remain elusive. By exploring the reaction kinetics of phenylacetylene with 1-naphthyl/4-phenanthryl radicals, we provide compelling theoretical and experimental evidence for a novel and self-consistent hydrogen-abstraction phenylacetylene-addition (HAPaA) mechanism. HAPaA operates efficiently at both low and high temperatures, leading to the formation, expansion, and nucleation of peri-condensed aromatic hydrocarbons (PCAHs), which are otherwise difficult to synthesis via traditional hydrogen-abstraction acetylene/vinylacetylene-addition pathways. The HAPaA mechanism can be generalized to other α-alkynyl PCAHs and thus provides an alternative covalent bond bridge for PCAH combination via an acetylene linker. The proposed HAPaA mechanism may contribute toward a comprehensive understanding of soot formation, carbonaceous nanomaterials synthesis, and the origin and evolution of carbon in our galaxy.

Topics & Concepts

PhenylacetyleneChemistryAcetyleneHydrogen atom abstractionPhotochemistryNucleationCarbon fibersRadicalHydrogenAlleneAstrobiologyComputational chemistryOrganic chemistryCatalysisMaterials sciencePhysicsComposite materialComposite numberAdvanced Chemical Physics StudiesCatalytic Processes in Materials ScienceSynthesis and Properties of Aromatic Compounds