Your search keyword '"Kavathekar, Ritwik S."' showing total 3 results

1. Hydrogen bond dynamical properties of adsorbed liquid water monolayers with various TiO 2 interfaces.

Author

English, Niall J., Kavathekar, Ritwik S., and MacElroy, J.M.D.

Subjects

*HYDROGEN bonding, *MOLECULAR association, *PHYSICAL & theoretical chemistry, *MONOMOLECULAR films, *MOLECULAR dynamics

Abstract

Equilibrium classical molecular dynamics (MD) simulations have been performed to investigate the hydrogen-bonding kinetics of water in contact with rutile-(110), rutile-(101), rutile-(100), and anatase-(101) surfaces at room temperature (300 K). It was observed that anatase-(101) exhibits the longest-lived hydrogen bonds in terms of overall persistence, followed closely by rutile-(110). The relaxation times, defined as the integral of the autocorrelation of the hydrogen bond persistence function, were also longer for these two cases, while decay of the autocorrelation function was slower. The increased number and overall persistence of hydrogen bonds in the adsorbed water monolayers at these surfaces, particularly for anatase-(101), may serve to promote possible water photolysis activity thereon. [ABSTRACT FROM AUTHOR]

Published

2012

2. Study of translational, librational and intra-molecular motion of adsorbed liquid water monolayers at various TiO 2 interfaces.

Author

Kavathekar, Ritwik S., English, Niall J., and MacElroy, J.M.D.

Subjects

*TRANSLATIONAL motion, *MOLECULAR dynamics, *TITANIUM dioxide, *INTERFACES (Physical sciences), *ADSORPTION (Chemistry), *WATER

Abstract

Equilibrium classical molecular dynamics (MD) simulations have been performed to investigate the vibrational motion of water in contact with rutile-(110), rutile-(100), rutile-(001), anatase-(101) and anatase-(001) surfaces at room temperature (300 K). The vibrational density of states (VDOS) of the first adsorbed monolayer of liquid water has been analysed for each surface. These have been compared with reported experimental INS values involving rutile and anatase polymorph surfaces, along with ab initio MD results. It is observed that good qualitative agreement is obtained for the rutile-(110) and the anatase-(101) surfaces with the corresponding experimental VDOS. A significant contribution from librational dynamics is found for planar rutile surfaces, but no such demarcation is seen in the experimental VDOS. [ABSTRACT FROM PUBLISHER]

Published

2011

3. Molecular dynamics study of water in contact with the TiO2 rutile-110, 100, 101, 001 and anatase-101, 001 surface.

Author

Kavathekar, Ritwik S., Dev, Pratibha, English, Niall J., and MacElroy, J. M. D.

Subjects

*MOLECULAR dynamics, *TITANIUM dioxide, *RUTILE, *OXIDES, *WATER, *MONOMOLECULAR films, *SIMULATION methods & models, *GEOMETRIC surfaces

Abstract

We have carried out classical molecular dynamics of various surfaces of TiO2 with its interface with water. We report the geometrical features of the first and second monolayers of water using a Matsui Akaogi (MA) force field for the TiO2 surface and a flexible single point charge model for the water molecules. We show that the MA force field can be applied to surfaces other than rutile (110). It was found that water OH bond lengths, H-O-H bond angles and dipole moments do not vary due to the nature of the surface. However, their orientation within the first and second monolayers suggest that planar rutile (001) and anatase (001) surfaces may play an important role in not hindering removal of the products formed on these surfaces. Also, we discuss the effect of surface termination in order to explain the layering of water molecules throughout the simulation box. [ABSTRACT FROM AUTHOR]

Published

2011