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Bond Dissociation and Reactivity of HF and HO in a Nano Test Tube. | LitMetric

AI Article Synopsis

  • - The study explores molecular motion and bond dissociation by trapping HF and HO molecules in a fullerene cage inside a carbon nanotube, allowing analysis of how these molecules behave at a nanoscale level.
  • - The electron beam serves both to initiate chemical reactions and to image the molecular structures at an atomic resolution, enabling real-time observation of molecular dynamics and reactivity.
  • - Experimental findings reveal that the electron beam can cause the bonds in HF and HO to break, leading to the release of hydrogen atoms, with atomic fluorine being more stable than atomic oxygen within the cage due to different interaction mechanisms with the surrounding carbon lattice.

Article Abstract

Molecular motion and bond dissociation are two of the most fundamental phenomena underpinning the properties of molecular materials. We entrapped HF and HO molecules within the fullerene C cage, encapsulated within a single-walled carbon nanotube (X@C)@SWNT, where X = HF or HO. (X@C)@SWNT represents a class of molecular nanomaterial composed of a guest within a molecular host within a nanoscale host, enabling investigations of the interactions of isolated single di- or triatomic molecules with the electron beam. The use of the electron beam simultaneously as a stimulus of chemical reactions in molecules and as a sub-angstrom resolution imaging probe allows investigations of the molecular dynamics and reactivity in real time and at the atomic scale, which are probed directly by chromatic and spherical aberration-corrected high-resolution transmission electron microscopy imaging, or indirectly by vibrational electron energy loss spectroscopy during scanning transmission electron microscopy experiments. Experimental measurements indicate that the electron beam triggers homolytic dissociation of the H-F or H-O bonds, respectively, causing the expulsion of the hydrogen atoms from the fullerene cage, leaving fluorine or oxygen behind. Because of a difference in the mechanisms of penetration through the carbon lattice available for F or O atoms, atomic fluorine inside the fullerene cage appears to be more stable than the atomic oxygen under the same conditions. The use of (X@C)@SWNT, where each molecule X is "packaged" separately from each other, in combination with the electron microscopy methods and density functional theory modeling in this work, enable bond dynamics and reactivity of individual atoms to be probed directly at the single-molecule level.

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Source
http://dx.doi.org/10.1021/acsnano.0c02661DOI Listing

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