Add to ORKGThe confinement of polymer melts in nanoscopic pores leads to chain dynamics significantly different from bulk behaviour. This so-called 'corset effect' occurs both above and below the critical molecular mass and induces dynamic features as predicted for reptation. The confined-to-bulk dynamics crossover is treated analytically on the basis of general thermodynamic relations connected to the fluctuation of the number of particles (Kuhn segments) in a given volume. Bulk behaviour is shown to occur only if the pore diameter complies with the limit dpore ≫ (b3/k BTκT )1/3RF ≈ 10R F , where b is the Kuhn segment length, κT the isothermal compressibility, T the temperature, kB the Boltzmann constant and RF the Flory radius. For smaller pores, th...
Polymers have been used for variety of products for decades, and the usage of polymer products is st...
The physical properties e.g. dynamics, mechanics, etc., of polymers can change drastically under nan...
Monte Carlo simulations are performed to study the conformational and dynamical properties of intera...
The confinement of polymer melts in nanoscopic pores leads to chain dynamics significantly different...
Polymer melts confined in micrometer thick layers were examined with the aid of field-cycling NMR re...
Polymer chain dynamics were studied with the aid offield-cycling NMR relaxometry (time scale: 10-9s⋯...
It is shown that the confinement of polymer melts in nanopores leads to chain dynamics dramatically ...
Polymers in composites and inside porous media are frequently confined to spaces that are comparable...
It is known that topological restraints by "chain entanglements" severely affect chain dynamics in p...
Linear polyethylene oxides with molecular weights Mw of 1665 and 10170 confined in pores with variab...
The non-equilibrium dynamics of linear and star-shaped cis-1,4 polyisoprenes confined within nanopor...
Reptational dynamics of bulk polymer chains on a time scale between the Rouse mode relaxation time a...
Although many studies have analyzed the behavior of polymers under 1-D thin film and 2-D cylindrical...
Polymers have been used for variety of products for decades, and the usage of polymer products is st...
The physical properties e.g. dynamics, mechanics, etc., of polymers can change drastically under nan...
Monte Carlo simulations are performed to study the conformational and dynamical properties of intera...
The confinement of polymer melts in nanoscopic pores leads to chain dynamics significantly different...
Polymer melts confined in micrometer thick layers were examined with the aid of field-cycling NMR re...
Polymer chain dynamics were studied with the aid offield-cycling NMR relaxometry (time scale: 10-9s⋯...
It is shown that the confinement of polymer melts in nanopores leads to chain dynamics dramatically ...
Polymers in composites and inside porous media are frequently confined to spaces that are comparable...
It is known that topological restraints by "chain entanglements" severely affect chain dynamics in p...
Linear polyethylene oxides with molecular weights Mw of 1665 and 10170 confined in pores with variab...
The non-equilibrium dynamics of linear and star-shaped cis-1,4 polyisoprenes confined within nanopor...
Reptational dynamics of bulk polymer chains on a time scale between the Rouse mode relaxation time a...
Although many studies have analyzed the behavior of polymers under 1-D thin film and 2-D cylindrical...
Polymers have been used for variety of products for decades, and the usage of polymer products is st...
The physical properties e.g. dynamics, mechanics, etc., of polymers can change drastically under nan...
Monte Carlo simulations are performed to study the conformational and dynamical properties of intera...