Dynamics in Small Confining Systems V: Volume 651, Volume 5J. M. Drake This book celebrates a decade for this popular series on dynamics in small confining systems. It covers a broad range of topics related to static and dynamic properties of confining systems: probing of confined systems, structure and dynamics of liquids at interfaces, nanorheology and tribology, adsorption, diffusion in pores, polymers and membranes, dielectric relaxation and biological aspects. Participants from various disciplines share different points of view on the questions of how ultrasmall geometries can force a system to behave in ways significantly different from its behavior in the bulk, how this difference affects molecular properties, and how it is probed. |
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Contents
Structure of Charged Polymer Chains in Confined Geometry T1 | 12 |
Enzymes and Cells Confined in Silica Nanopores T1 4 | 12 |
Dynamics of SolGel Clusters and Branched Polymers T1 6 | 12 |
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2001 Materials Research adsorbed adsorption amplitude anisotropy axis behavior boundary conditions bulk calculated carbon nanotube cell Chem chemical coefficient concentration confined constant curves cylindrical pores decrease dendrimer density dielectric dielectric spectroscopy diffusion displacement distribution dynamics effects electric field electron energy equation excimer experimental experiments ferrites Figure fluid fluorescence fractal frequency function geometry hysteresis increase interaction interface ions kinetics lattice layer Lett librational librational mode line width liquid crystal magnetic Materials Research Society matrix measured membrane microtubules molecular molecular dynamics molecules monomers motion Nafion nanostar nematic observed obtained order parameter particles percolation perylene phase Phys polymer porosity porous potential Proc proton radius reactants reaction regime relaxation rate sample saturation scale scattering shear shown shows silica simulations sol-gel solid solution spectra spin-lattice relaxation structure surface Symp temperature dependence thermoelectric power transition velocity viscoelastic Vycor