Wm. Bartczak et al., Computer simulation of water and concentrated ionic solutions. Potential fluctuations and electron localization, PHI T ROY A, 359(1785), 2001, pp. 1593-1609
Citations number
32
Categorie Soggetti
Multidisciplinary
Journal title
PHILOSOPHICAL TRANSACTIONS OF THE ROYAL SOCIETY OF LONDON SERIES A-MATHEMATICAL PHYSICAL AND ENGINEERING SCIENCES
The possibilities of trapping an excess electron by potential traps in liqu
id water and aqueous ionic solutions have been investigated by means of a c
omputer simulation method.
The equilibrium configurations of water molecules are generated by the mole
cular dynamics (MD) method and the molecular configurations are searched fo
r local minima of the potential energy. The analysis of a large set of the
minima allows us to obtain all extensive statistical description of the mic
roscopic trapping sites. The estimated concentration of the electron traps
in liquid water is ca. 0.5 mol dm(-3).
The possibility of electron trapping depends very strongly on the lifetime
of the potential traps. The simulations yielded the distribution of the tra
p lifetime with an average of 84 fs. A substantial fraction (20%) of the tr
aps live longer than 100 fs, a small fraction (0.2%) live as long as I ps.
These values can be compared with experimental measurements of the electron
hydration time of the order of 100 fs.
The calculations of the localized excess electron in concentrated solutions
of LiCl and NaCl have been performed. The MD simulations of the solutions
provided all ensemble of configurations of ions and water molecules. The qu
antum calculations (based on density functional theory. non-local version)
of an excess electron in the clusters of ions and water molecules extracted
from the MD configurations have been performed for a few hundred cases. It
appears that most of the hydrated Li+ cations can trap an excess electron.
The histograms of the distribution of energy of the HOMO orbitals and a hi
stogram of the electron excitation spectrum have been constructed.