Interdisciplinary Applied Mathematics

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Rovere, M. and Gallo, P. (2003). Strong layering effects and anomalous dynamical behaviour in confined water at low hydration. J. Phys. Condens. Matter, 15:S145-S150.

Rovere, M., Ricci, M. A., and Bruni, F. (1998). A molecular dynamics simulation of water confined in a cylindrical SiO2 pore. J. Chem. Phys., 108:9859-9867.

Rowlinson, J. S. (1989). The Yukawa potential. Physica A, 156:15-34.

Ruckenstein, E. and Rajora, P. (1983). On the no-slip condition of hydrodynamics. J. Colloid Interface Sci., 96:488-491.

Rudisill, E. N. and Cummings, P. T. (1989). Gibbs ensemble simulation of phase equilibrium in the hard core two-Yukawa fluid model for the Lennard-Jones fluid. Mol. Phys., 68:629-635.

Russel, W. B., Saville, D. A., and Scholwalter, W. R. (1989). Colloidal Dispersions. Cambridge Univ. Press.

Sadr, R., Yoda, M., Zheng, Z., and Conlisk, A. T. (2004). An experimental study of electro-osmotic flow in rectangular microchannels. J. Fluid Mech., 506:357-367.

Sadus, R. J. (1999). Molecular Simulation of Fluids: Theory, Algorithms and Object-Orientation. Elsevier.

Saito, R., Dresselhaus, C., and Dresselhaus, M. S. (1998). Physical Properties of Carbon Nanotubes. Imperial College Press.

Sammarco, T. A. and Burns, M. A. (1999). Thermocapillary pumping of discrete drops in microfabricated analysis devices. AIChE J., 45(2):350-366.

Santiago, J. G. (2001). Electroosmotic flows in microchannels with finite inertial and pressure forces. Anal. Chem., 73(10):2353-2365.

Santiago, J. G., Werely, S. T., Meinhart, C. D., Beebe, D., and Adrian, R. (1998). A PIV system for microfluidics. Exp. Fluids, 25:316-319.

Sattler, R., Schrag, G., and Wachutka, G. (2003). Mixed-level model for highly perforated torsional actuators coupling the mechanical, the electrostatic and the fluidic domain. In Nanotech 2003, pages 284-287.

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