Dynamics in Small Confining Systems - 2003: Volume 790Interfacial science has rapidly expanded beyond the original realm of chemistry to include specialized subfields. This book covers an exapnding body of work dealing with the dynamics and thermodynamics of molecular systems in spatial confinement. Participants from various disciplines share their views on how ultrasmall geometries can force a system to behave in ways significantly different than its behavior in bulk, how this difference affects molecular properties, and how it is probed. Investigators are studying phenomena in a broad range of materials, and confinement of liquids is also an important issue. Advances in experiment, theory, and computation have greatly increased our understanding of dynamics in confined systems, but this book proves that there is still much to be learned. Topics include: confined and anomalous dynamics in porous, supramolecular and biological systems; methods to probe dynamics in confinement; microfluidics and hydrodynamics near solid surfaces; friction and structural properties of fluids under shear; dynamic force spectroscopy; and numerical modeling and computational techniques of confined systems. |
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Page 59
... surface modification , and liquid surface tension . Microporous membranes ( 200 - 800nm ) act as arrays of millions of imperfect microcapillaries . Extrusion and leaking requires pressure plus coalescence of microdroplets . For ...
... surface modification , and liquid surface tension . Microporous membranes ( 200 - 800nm ) act as arrays of millions of imperfect microcapillaries . Extrusion and leaking requires pressure plus coalescence of microdroplets . For ...
Page 60
... surface tension . The surface tension of these solutions as a function of volume of methanol ( along with other aqueous - organic systems ) , can be found in ( 3 ) . The maximum length of a column of liquid supported by a membrane was ...
... surface tension . The surface tension of these solutions as a function of volume of methanol ( along with other aqueous - organic systems ) , can be found in ( 3 ) . The maximum length of a column of liquid supported by a membrane was ...
Page 61
... Surface Tension 350 □ GVPP • GVX 300 HVPP · HVX 250 200 Hold Up Pressure ( mmXd ) 150 100 50 0 0 20 40 60 80 Surface Tension ( dynes / cm ) Figure 1 : Hold Up Pressure as a Function of Surface Tension for PVDF Membranes . 340 Critical ...
... Surface Tension 350 □ GVPP • GVX 300 HVPP · HVX 250 200 Hold Up Pressure ( mmXd ) 150 100 50 0 0 20 40 60 80 Surface Tension ( dynes / cm ) Figure 1 : Hold Up Pressure as a Function of Surface Tension for PVDF Membranes . 340 Critical ...
Contents
Hook Formation of Electrically Driven DNA Collisions | 3 |
Low Frequency Dynamics of Confined Proteins | 9 |
Characterization and Applications of Modulated Optical | 17 |
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2004 Materials Research adsorbed adsorption amplitude atoms attractors bead behavior boundary Brownian bulk chain Chem colloidal conformation correlation correlation function corresponding cylindrical pores decrease density depletion zone diameter dielectric dielectric spectroscopy diffusion coefficient ellipsometry energy equation equilibrium experimental experiments Figure film thickness fluctuations fluid fluorescence force frequency friction function glass transition temperature hydrophobic interactions layer Lett librational liquid crystal MagMOONs magnetic Materials Research Society mean velocity measured membranes micelle microemulsion molecular molecules motion neutron scattering observed obtained optical orientation parameters particles phase Phys polymer polymer films pore wall porous glass potential Pozhar probe Proc protein proton PVDF relaxometry sample SFG spectra shown shows silica simulations sliding solid solution solvation solvent spatial spectroscopy spin-lattice relaxation structure substrate supercooled surface tension Symp thermal trap viscosity volume Vycor