The depletion interaction between two spheres due to nonadsorbing ideal polymers is calculated from the polymer concentration profile using the excess (negative) adsorption. Computer simulations show that the polymer concentration profiles around two spheres are well described by the product function of the concentration profile around a single sphere. From the interaction potential between two spheres the second osmotic virial coefficient, B2 , is calculated for various polymer-colloid size ratios. We find that when the polymers become smaller than the spheres, B2 remains positive in the dilute regime. This shows that the depletion interaction is ineffective for relatively small spheres
The theory developed by Scheutjens and Fleer to describe polymer adsorption and depletion is used to...
In this paper it is described how a recent theoretical model can be applied to a system of two collo...
We study the phase behaviour of mixtures of colloidal spheres and polymers\u3cbr/\u3ethat have an ex...
The depletion interaction between two spheres due to nonadsorbing ideal polymers is calculated from ...
A recently developed method is applied to calculate the depletion interaction between a sphere and ...
A recently developed method is applied to calculate the depletion interaction between a sphere and a...
We use a continuum chain model and develop an analytical theory for the interaction between two sphe...
We present a simple analytical mean-field theory for the pair interaction between two colloidal part...
The interaction between two parallel plates due to non-adsorbing polymer chains with excluded volum...
We present a simple mean-field theory to describe the polymer-mediated depletion attraction between ...
The effect of polymer polydispersity on the polymer-induced interaction between colloidal particles ...
The interaction between two spheres in a solution of nonadsorbing polymers, with excluded volume int...
The interaction between two spheres in a solution of nonadsorbing polymers, with excluded volume int...
The interaction between two parallel plates due to non-adsorbing polymer chains with excluded volum...
NVT Monte Carlo simulations were used to assess the effective interaction between pairs of colloid p...
The theory developed by Scheutjens and Fleer to describe polymer adsorption and depletion is used to...
In this paper it is described how a recent theoretical model can be applied to a system of two collo...
We study the phase behaviour of mixtures of colloidal spheres and polymers\u3cbr/\u3ethat have an ex...
The depletion interaction between two spheres due to nonadsorbing ideal polymers is calculated from ...
A recently developed method is applied to calculate the depletion interaction between a sphere and ...
A recently developed method is applied to calculate the depletion interaction between a sphere and a...
We use a continuum chain model and develop an analytical theory for the interaction between two sphe...
We present a simple analytical mean-field theory for the pair interaction between two colloidal part...
The interaction between two parallel plates due to non-adsorbing polymer chains with excluded volum...
We present a simple mean-field theory to describe the polymer-mediated depletion attraction between ...
The effect of polymer polydispersity on the polymer-induced interaction between colloidal particles ...
The interaction between two spheres in a solution of nonadsorbing polymers, with excluded volume int...
The interaction between two spheres in a solution of nonadsorbing polymers, with excluded volume int...
The interaction between two parallel plates due to non-adsorbing polymer chains with excluded volum...
NVT Monte Carlo simulations were used to assess the effective interaction between pairs of colloid p...
The theory developed by Scheutjens and Fleer to describe polymer adsorption and depletion is used to...
In this paper it is described how a recent theoretical model can be applied to a system of two collo...
We study the phase behaviour of mixtures of colloidal spheres and polymers\u3cbr/\u3ethat have an ex...
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