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Molecular Physics
An International Journal at the Interface Between Chemistry and Physics
Volume 109, 2011 - Issue 5
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Research Articles

Yukawa fluid at a hard wall: field theory description

Dung di Caprio Laboratory of Electrochemistry, Chemistry of Interfaces and Modelling for Energy, Chimie Paris Tech., ENSCP, CNRS, B.C. 39, 4, Pl. Jussieu, 75252 Paris Cedex 05, FranceCorrespondence[email protected]
,
Janusz Stafiej Institute of Physical Chemistry, Polish Academy of Sciences, Kasprzaka 44/62, 01-224 Warsaw, Poland
,
Myroslav Holovko Institute for Condensed Matter Physics, National Academy of Sciences of Ukraine, 1 Svientsitskii Str., 79011 Lviv, Ukraine
&
Ivan Kravtsiv Institute for Condensed Matter Physics, National Academy of Sciences of Ukraine, 1 Svientsitskii Str., 79011 Lviv, Ukraine
Pages 695-708 | Received 28 Oct 2010, Accepted 02 Dec 2010, Published online: 03 Mar 2011
 
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Abstract

We adopt a field-theoretical approach to study the structure and thermodynamics of a spatially confined fluid interacting with the Yukawa potential. We derive analytic expressions for the pressure, the Helmholtz free energy, the correlation function, the density profile, and the adsorption. Different simple analytic expressions of the density profile are compared with the numerical estimation of the mean field results. Beyond the mean field approximation, we show that fluctuations can contribute significantly to the properties of the system. Notably they lead to a desorption phenomenon regardless of the sign of the interaction. As a consequence, a non-monotonous density profile at the wall and adsorption curves as a function of the density are found for some systems. This behaviour rationalizes the ionic depletion phenomenon responsible for the anomalous behaviour of the electric capacitance as a function of temperature. Particular attention is given to the contact theorem condition.

Acknowledgments

M. Holovko and D. di Caprio are grateful for the support of the National Academy of Sciences of Ukraine (NASU) and the Centre National de la Recherche Scientifique (CNRS) (project no. 23999), J. Stafiej and D. di Caprio are grateful for the support of the Polish Academy of Science and of the CNRS (project no. 22557).

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