The identification of the force distribution in curved interfaces as a thermodynamic force [Baus and Lovett, J. Chem. Phys. 101, 377 (1995)] can be interpreted as a relation between the force distribution and the grand canonical free energy difference between two distinct systems. Using this interpretation, molecular expressions are developed for the force distribution in cylindrical and spherical interfaces that remain valid for very highly curved interfaces.Journal Articleinfo:eu-repo/semantics/publishe
Jury : President : D. Chatenay; Rapporteurs : J.-F. Joanny, L. Peliti; Examinateurs : A. Ajdari, E. ...
In order to obtain consistency with the force balance theory of Young and Laplace, which quantitativ...
The cell model for solutions, used by one of the authors (I. P.) and his collaborators, is extended ...
Although relatively much is known about the physics of curved interfaces, several models for these k...
<p>Although relatively much is known about the physics of curved interfaces, several models fo...
International audienceThe calculation of the surface tension of curved interfaces has been deeply in...
The Derjaguin approximation (DA) relates the force between curved surfaces to the interaction free e...
AbstractThe aim of the present paper is to formulate a thermodynamic field theory in discontinuous m...
International audienceWe report molecular simulations of the liquid-vapor cylindrical interface of m...
International audienceWe report the calculation of the potential of mean force (PMF) of different ty...
<p>Fluid interfaces and membranes can mediate forces between particles bound to them. Bound objects ...
AbstractWe calculate the displacement of a single spherical particle from the minimum of a harmonic ...
In this paper, we investigate the effect of molecular shape and multipolarity on interfacial propert...
We study theoretically the interface vibrational contribution to thermodynamic properties of a syste...
Abstract — This review sets out the differences between the theory of small systems and of the infin...
Jury : President : D. Chatenay; Rapporteurs : J.-F. Joanny, L. Peliti; Examinateurs : A. Ajdari, E. ...
In order to obtain consistency with the force balance theory of Young and Laplace, which quantitativ...
The cell model for solutions, used by one of the authors (I. P.) and his collaborators, is extended ...
Although relatively much is known about the physics of curved interfaces, several models for these k...
<p>Although relatively much is known about the physics of curved interfaces, several models fo...
International audienceThe calculation of the surface tension of curved interfaces has been deeply in...
The Derjaguin approximation (DA) relates the force between curved surfaces to the interaction free e...
AbstractThe aim of the present paper is to formulate a thermodynamic field theory in discontinuous m...
International audienceWe report molecular simulations of the liquid-vapor cylindrical interface of m...
International audienceWe report the calculation of the potential of mean force (PMF) of different ty...
<p>Fluid interfaces and membranes can mediate forces between particles bound to them. Bound objects ...
AbstractWe calculate the displacement of a single spherical particle from the minimum of a harmonic ...
In this paper, we investigate the effect of molecular shape and multipolarity on interfacial propert...
We study theoretically the interface vibrational contribution to thermodynamic properties of a syste...
Abstract — This review sets out the differences between the theory of small systems and of the infin...
Jury : President : D. Chatenay; Rapporteurs : J.-F. Joanny, L. Peliti; Examinateurs : A. Ajdari, E. ...
In order to obtain consistency with the force balance theory of Young and Laplace, which quantitativ...
The cell model for solutions, used by one of the authors (I. P.) and his collaborators, is extended ...