Hydrogen bonded structure and dynamics of liquid-vapor interface of water-ammonia mixture: An ab initio molecular dynamics study

Chakraborty, Debashree ; Chandra, Amalendu (2011) Hydrogen bonded structure and dynamics of liquid-vapor interface of water-ammonia mixture: An ab initio molecular dynamics study The Journal of Chemical Physics, 135 (11). p. 114510. ISSN 0021-9606

Full text not available from this repository.

Official URL: http://doi.org/10.1063/1.3637499

Related URL: http://dx.doi.org/10.1063/1.3637499

Abstract

We have carried out ab initio molecular dynamics simulations of a liquid-vapor interfacial system consisting of a mixture of water and ammonia molecules. We have made a detailed analysis of the structural and dynamical properties of the bulk and interfacial regions of the mixture. Among structural properties, we have looked at the inhomogeneous density profiles of water and ammonia molecules, hydrogen bond distributions, orientational profiles, and also vibrational frequency distributions of bulk and interfacial molecules. It is found that the interfacial molecules show preference for specific orientations so as to form water-ammonia hydrogen bonds at the interface with ammonia as the acceptor. The structure of the system is also investigated in terms of inter-atomic voids present in the system. Among the dynamical properties, we have calculated the diffusion, orientational relaxation, hydrogen bond dynamics, and vibrational spectral diffusion in bulk and interfacial regions. It is found that the diffusion and orientation relaxation of the interfacial molecules are faster than those of the bulk. However, the hydrogen bond lifetimes are longer at the interface which can be correlated with the time scales found from the decay of frequency time correlations

Item Type:Article
Source:Copyright of this article belongs to American Institute of Physics
ID Code:130123
Deposited On:23 Nov 2022 04:56
Last Modified:23 Nov 2022 04:56

Repository Staff Only: item control page