Litcius/Paper detail

Distant Symmetry Control in Electron-Induced Bond Cleavage

Ragesh Kumar T. P., Pamir Nag, Miloš Ranković, Thomas F. M. Luxford, Jaroslav Kočišek, Zdeněk Mašín, Juraj Fedor

2022The Journal of Physical Chemistry Letters23 citationsDOI

Abstract

We experimentally show that N-H bond cleavage in the pyrrole molecule following resonant electron attachment is allowed and controlled by the motion of the atoms which are not dissociating, namely, of the carbon-attached hydrogen atoms. We use this fact to steer the efficiency of this bond cleavage. In order to interpret the experimental findings, we have developed a method for locating all resonant and virtual states of an electron-molecule system in the complex plane, based on all-electron R-matrix scattering calculations. Mapping these as a function of molecular geometry allows us to separate two contributing dissociation mechanisms: a π* resonance formation inducing strong bending deformations and a nonresonant σ* mechanism originating in a virtual state. The coupling between the two mechanisms is enabled by the out-of-plane motion of the C-H bonds, and we show that it must happen on an ultrafast (few fs) time scale.

Topics & Concepts

Cleavage (geology)ElectronSymmetry (geometry)PhysicsMaterials scienceMathematicsGeometryQuantum mechanicsComposite materialFracture (geology)Diamond and Carbon-based Materials ResearchMolecular Junctions and NanostructuresSemiconductor materials and devices