Dynamics in Small Confining SystemsMaterials Research Society, 1998 - Molecular dynamics |
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Page 192
... surface tension of this solution exhibit similar behavior which is shown in figure 2 . 45 40 35 30 Surface Tension ( N / m2 ) 25 20 25 20 0.0 2.0 4.0 6.0 Concentration ( Wt % ) Figure 2 : Surface tension as a function of the ...
... surface tension of this solution exhibit similar behavior which is shown in figure 2 . 45 40 35 30 Surface Tension ( N / m2 ) 25 20 25 20 0.0 2.0 4.0 6.0 Concentration ( Wt % ) Figure 2 : Surface tension as a function of the ...
Page 214
... surface tension and the density of the fluid , respectively , a is the inclination angle , and g is the acceleration of gravity . In the downhill direction , the fluid ends at a gravity - driven contact line , a point in the 1D case ...
... surface tension and the density of the fluid , respectively , a is the inclination angle , and g is the acceleration of gravity . In the downhill direction , the fluid ends at a gravity - driven contact line , a point in the 1D case ...
Page 244
... surface tension and the density of the film do not change with the film thickness , it follows from the well - known ... surface ) , P , is the saturated vapor pressure , y is the surface tension , V , is the molar volume of the liquid ...
... surface tension and the density of the film do not change with the film thickness , it follows from the well - known ... surface ) , P , is the saturated vapor pressure , y is the surface tension , V , is the molar volume of the liquid ...
Contents
Dielectric and Mechanical Relaxation of GlassForming | 15 |
Dielectric Relaxation in a Deeply Supercooled Liquid | 27 |
Rotational Diffusion of Microconfined Liquids | 33 |
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1999 Materials Research adsorbed adsorption anisotropy behavior bulk liquid calculated cantilever capillary Chem chromophores coefficient concentration confined constant core-shell correlation crossover curve cyclohexane dendrimer density dependence dielectric diffusion dimensional dimensions distribution droplets effect electronic energy equation excitation exciton experimental experiments Figure film fluid frequency friction force function geometry glass hexadecane increase initial interaction interface kinetics Klafter Kopelman lattice layer length scale Lett linear Macromolecules Materials Research Society measurements membrane methyl iodide molecular dynamics molecules normal nucleation observed obtained optical parameters particles perturbation theory phase phenylacetylene Phys polaron polyaniline polymer polystyrene pore porous power law probe Proc properties radius reactant reaction front regime relaxation sample self-trapping shear shear thinning shows silica simulations solid solution solvation solvent structure studied substrate surface Symp temperature thermal thickness transition trap velocity viscosity W. A. Goddard zeolite