Surface viscosity, diffusion and intermonolayer friction: simulating sheared amphiphilic bilayers

¹ University of Twente
² University ot Twente

^* To whom correspondence should be addressed. E-mail: w.k.denotter{at}tnw.utwente.nl.

Submitted on March 11, 2005
Revised on April 8, 2005
Accepted on 2 May 2005

	Abstract

The flow properties of an amphiphilic bilayer are studied in molecular dynamics simulations, by exposing a coarse grained model bilayer to two shear flows directed along the bilayer surface. The first field, with a vorticity perpendicular to the bilayer, induces a regular shear deformation, allowing a direct calculation of the surface viscosity. In experiments this property is measured indirectly, by relating it to the diffusion coefficient of a tracer particle through the Saffman-Einstein expression. The current calculations provide an independent test of this relation. The second flow field, with a vorticity parallel to the bilayer, causes the two constituent monolayers to slide past oneanother, yielding the interlayer friction coefficient.

Key Words: bilayers, coarse grained, intermonolayer friction, molecular dynamics, surface viscosity

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