A molecular dynamics study of the TIP4P model of water

## Abstract The multivariate chemometric techniques two level factorial design (TLFD) and principal component analysis (PCA) were used to investigate the TIP4P model potential behavior with respect to perturbations on all intermolecular interaction parameters. The effects of these perturbations wer

The structure in a rater cluster restricted by a hydrophobic wallwas studied as a function of the distance from the wa E%&nificant orientational preference was observed near the surface. This preference is very r&nJJs.r to that present in Liquid tvater near planar hydrophobrc surfaces of kxfiite ext

An MD simulJtlon of 216 ST? water n~oIccules between 12-6 Lennard-Jones \wlls has been performed which extend OI:Y 20 ps at an ;~\er+x temperature of 287 I;. The oxygen atom density profile is reported and the influence of the walls on the orientation of the ester molecules and on the sclfdiffusion

In the process of studying the solvation of simple hydrocarbons, we found that the nonbond van der Waals (vdw) parameters for the TIP3P water model could be adjusted without significantly changing its liquid water properties. By increasing the van der Waals well depth E from 0.152 kcal/mol for the T

A classical molecular dynamics (CMD) study has been carried out to investigate the OH stretching spectrum of liquid water. The potential used is the simple point charge model modified to include anharmonic vibrational potentials. A series of CMD runs were made for a system of 100 water molecules. Sp