A molecular dynamics (MD) approach was employed to simulate the imbibition of a designed nanopore by a simple fluid (i e a Lennard-Jones (LJ) fluid) The length of imbibition as a function of time for various interactions between the LJ fluid and the pore wall was recorded for this system (1 e the LJ fluid and the nanopore) By and large the kinetics of imbibition was successfully described by the Lucas-Washburn (LW) equation although deviation from it was observed in some cases This lack of agreement is due to the neglect of the dynamic contact angle (DCA) in the LW equation Two commonly used models (i e hydrodynamic and molecular-kinetic (MK) models) were thus employed to calculate the DCA It is demonstrated that the MK model is able to Justify the simulation results in which are not in good agreement with the simple LW equation However the hydrodynamic model is not capable of doing that Further investigation of the MD simulation data revealed an interesting fact that there is a direct relationship between the wall-fluid interaction and the speed of the capillary imbibition More evidence to support this claim is presented (C) 2010 Elsevier Inc All rights reserved