Author:
MOKADY A. J.,MESTEL A. J.,WINLOVE C. P.
Abstract
The polyelectrolyte layer coating mammalian cells, known as the
glycocalyx, is
important in communicating flow information to the cell. In this paper,
the layer is
modelled as a semi-infinite, doubly periodic array of parallel charged
cylinders. The
electric potential and ion distributions surrounding such an array are
found using
the Poisson–Boltzmann equation and an iterative domain decomposition
technique.
Similar methods are used to calculate Stokes flows, driven either by a
shear at infinity
or by an electric field, parallel or transverse to the cylinders. The resulting
electric streaming currents due to flow over endothelial cells, and the
electrophoretic
mobilities of red blood cells are deduced as functions of polymer concentration
and
electrolyte molarity. It is shown that only the top portion of the layer
is important in
these effects.
Publisher
Cambridge University Press (CUP)
Subject
Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics
Cited by
16 articles.
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