Orientation dependent Stokes drag in a colloidal liquid crystal

A.A. Verhoeff; J. van Rijssel; V.W.A. de Villeneuve; H.N.W. Lekkerkerker

Orientation dependent Stokes drag in a colloidal liquid crystal

A.A. Verhoeff, J. van Rijssel, V.W.A. de Villeneuve, H.N.W. Lekkerkerker

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Stokes drag on the (sub)micrometre scale plays a key role in phenomena ranging from Brownian motion to the rheology of particulate suspensions. We report the first measurement of the direction dependent Stokes drag in a nematic liquid crystal of colloidal rods, where the viscous forces are of equal importance to the elastic forces. By tracking a sedimenting sphere with combined fluorescence confocal microscopy and polarization microscopy we find that the Stokes drag for motion along the director is two times larger than for motion perpendicular to the director. This brings the unique viscoelastic properties of a colloidal liquid crystal into focus.

Original language	Undefined/Unknown
Pages (from-to)	1602-1604
Number of pages	3
Journal	Soft Matter
Volume	4
Issue number	8
Publication status	Published - 2008

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Cite this

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title = "Orientation dependent Stokes drag in a colloidal liquid crystal",

abstract = "Stokes drag on the (sub)micrometre scale plays a key role in phenomena ranging from Brownian motion to the rheology of particulate suspensions. We report the first measurement of the direction dependent Stokes drag in a nematic liquid crystal of colloidal rods, where the viscous forces are of equal importance to the elastic forces. By tracking a sedimenting sphere with combined fluorescence confocal microscopy and polarization microscopy we find that the Stokes drag for motion along the director is two times larger than for motion perpendicular to the director. This brings the unique viscoelastic properties of a colloidal liquid crystal into focus.",

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T1 - Orientation dependent Stokes drag in a colloidal liquid crystal

AU - Verhoeff, A.A.

AU - van Rijssel, J.

AU - de Villeneuve, V.W.A.

AU - Lekkerkerker, H.N.W.

PY - 2008

Y1 - 2008

N2 - Stokes drag on the (sub)micrometre scale plays a key role in phenomena ranging from Brownian motion to the rheology of particulate suspensions. We report the first measurement of the direction dependent Stokes drag in a nematic liquid crystal of colloidal rods, where the viscous forces are of equal importance to the elastic forces. By tracking a sedimenting sphere with combined fluorescence confocal microscopy and polarization microscopy we find that the Stokes drag for motion along the director is two times larger than for motion perpendicular to the director. This brings the unique viscoelastic properties of a colloidal liquid crystal into focus.

AB - Stokes drag on the (sub)micrometre scale plays a key role in phenomena ranging from Brownian motion to the rheology of particulate suspensions. We report the first measurement of the direction dependent Stokes drag in a nematic liquid crystal of colloidal rods, where the viscous forces are of equal importance to the elastic forces. By tracking a sedimenting sphere with combined fluorescence confocal microscopy and polarization microscopy we find that the Stokes drag for motion along the director is two times larger than for motion perpendicular to the director. This brings the unique viscoelastic properties of a colloidal liquid crystal into focus.

M3 - Article

SN - 1744-683X

VL - 4

SP - 1602

EP - 1604

JO - Soft Matter

JF - Soft Matter

IS - 8

ER -