Add to ORKGLow-energy dissociative electron attachment (DEA) to the CF2Cl2 and CF3Cl molecules in a water cluster environment is investigated theoretically. Calculations are performed for the water trimer and water hexamer. It is shown that the DEA cross section is strongly enhanced when the attaching molecule is embedded in a water cluster, and that this cross section grows as the number of water molecules in the cluster increases. This growth is explained by a trapping effect that is due to multiple scattering by water molecules while the electron is trapped in the cluster environment. The trapping increases the resonance lifetime and the negative ion survival probability. This confirms qualitatively existing experiments on electron attachment to th...
Measurements of dissociative electron attachment (DEA) cross sections in chloroalkanes and chloroflu...
We present a study of multimode effects in dissociative electron attachment to CF3Cl molecules using...
Hydrogen bonding leads to the formation of strong, extended intermolecular networks in molecular liq...
Low-energy dissociative electron attachment (DEA) to the CF2Cl2 and CF3Cl molecules in a water clust...
Electron attachment onto water clusters to form water cluster anions is studied by varying the point...
Cluster environments can strongly influence dissociative electron attachment (DEA) processes. These ...
The electron capture dynamics of halocarbon and its water complex have been investigated by means of...
The solvation dynamics and reactivity of localized excess electrons in aqueous environments have att...
A theory of dissociative electron attachment to molecules condensed at surfaces and embedded within ...
This paper reports on the development of a new experiment for the study of electron-impact induced ...
Understanding the properties of hydrated electrons, which were first observed using pulse radiolysis...
We evaluate the applicability of a hierarchy of quantum models in characterizing the binding energy ...
We revisit our multiple-scattering method to treat low energy elastic electron collisions with (H2O)...
In the interior of larger clusters and in bulk water, the hydrated electron may not be bound in the ...
Intermolecular Coulombic decay (ICD) is a ubiquitous relaxation channel of electronically excited st...
Measurements of dissociative electron attachment (DEA) cross sections in chloroalkanes and chloroflu...
We present a study of multimode effects in dissociative electron attachment to CF3Cl molecules using...
Hydrogen bonding leads to the formation of strong, extended intermolecular networks in molecular liq...
Low-energy dissociative electron attachment (DEA) to the CF2Cl2 and CF3Cl molecules in a water clust...
Electron attachment onto water clusters to form water cluster anions is studied by varying the point...
Cluster environments can strongly influence dissociative electron attachment (DEA) processes. These ...
The electron capture dynamics of halocarbon and its water complex have been investigated by means of...
The solvation dynamics and reactivity of localized excess electrons in aqueous environments have att...
A theory of dissociative electron attachment to molecules condensed at surfaces and embedded within ...
This paper reports on the development of a new experiment for the study of electron-impact induced ...
Understanding the properties of hydrated electrons, which were first observed using pulse radiolysis...
We evaluate the applicability of a hierarchy of quantum models in characterizing the binding energy ...
We revisit our multiple-scattering method to treat low energy elastic electron collisions with (H2O)...
In the interior of larger clusters and in bulk water, the hydrated electron may not be bound in the ...
Intermolecular Coulombic decay (ICD) is a ubiquitous relaxation channel of electronically excited st...
Measurements of dissociative electron attachment (DEA) cross sections in chloroalkanes and chloroflu...
We present a study of multimode effects in dissociative electron attachment to CF3Cl molecules using...
Hydrogen bonding leads to the formation of strong, extended intermolecular networks in molecular liq...