Repulsion Between Inorganic Particles Inserted Within Surfactant   Bilayers

Doru Constantin; Brigitte Pansu; Marianne Imp\'eror; Patrick Davidson,; and Fran\c{c}ois Ribot

arXiv:1504.01113·cond-mat.soft·April 7, 2015

Repulsion Between Inorganic Particles Inserted Within Surfactant Bilayers

Doru Constantin, Brigitte Pansu, Marianne Imp\'eror, Patrick Davidson,, and Fran\c{c}ois Ribot

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TL;DR

This study uses synchrotron small-angle x-ray scattering to analyze how inorganic particles interact within surfactant bilayers, revealing a membrane-mediated repulsive force with specific magnitude and range.

Contribution

It provides the first detailed measurement of membrane-mediated interactions between inorganic particles in surfactant bilayers using x-ray scattering.

Findings

01

Particles exhibit a repulsive interaction with a contact value of about 4kT.

02

The interaction range is approximately 14 Å.

03

The technique offers insights into membrane inclusion interactions.

Abstract

We study by synchrotron small-angle x-ray scattering highly aligned lamellar phases of a zwitterionic surfactant, doped with monodisperse and spherical hydrophobic inorganic particles as a function of particle concentration. Analysis of the structure factor of the two-dimensional fluid formed by the particles in the plane of the bilayer gives access to their membrane-mediated interaction, which is repulsive, with a contact value of about 4k $_{B}$ T and a range of 14 {\AA}. Systematic application of this technique should lead to a better understanding of the interaction between membrane inclusions.

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