Isotropic-nematic interface and wetting in suspensions of colloidal platelets

D. Beek, van der; H. Reich; P.P.A.M. Schoot, van der; M. Dijkstra; T. Schilling; R. Vink; M. Schmidt; R. Roij, van; H.N.W. Lekkerkerker

doi:10.1103/PhysRevLett.97.087801

Isotropic-nematic interface and wetting in suspensions of colloidal platelets

D. Beek, van der
, H. Reich
, P.P.A.M. Schoot, van der
, M. Dijkstra
, T. Schilling
, R. Vink
, M. Schmidt
, R. Roij, van
, H.N.W. Lekkerkerker

Soft Matter and Biological Physics

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

114 Citations (Scopus)

224 Downloads (Pure)

Abstract

We study interfacial phenomena in a colloidal dispersion of sterically stabilized gibbsite platelets, exhibiting coexisting isotropic and nematic phases separated by a sharp horizontal interface. The nematic phase wets a vertical glass wall and polarized light micrographs reveal homeotropic surface anchoring both at the free isotropic-nematic interface and at the wall. On the basis of complete wetting of the wall by the nematic phase, as found in our density functional calculations and computer simulations, we analyze the balance between Frank elasticity and surface anchoring near the contact line. Because of weak surface anchoring, the director field in the capillary rise region is uniform. From the measured rise (6 µm) of the meniscus at the wall we determine the isotropic-nematic surface tension to be 3 nN/m, in quantitative agreement with our theoretical and simulation results.

Original language	English
Article number	087801
Pages (from-to)	087801
Number of pages	4
Journal	Physical Review Letters
Volume	97
Issue number	8
DOIs	https://doi.org/10.1103/PhysRevLett.97.087801
Publication status	Published - 2006

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title = "Isotropic-nematic interface and wetting in suspensions of colloidal platelets",

abstract = "We study interfacial phenomena in a colloidal dispersion of sterically stabilized gibbsite platelets, exhibiting coexisting isotropic and nematic phases separated by a sharp horizontal interface. The nematic phase wets a vertical glass wall and polarized light micrographs reveal homeotropic surface anchoring both at the free isotropic-nematic interface and at the wall. On the basis of complete wetting of the wall by the nematic phase, as found in our density functional calculations and computer simulations, we analyze the balance between Frank elasticity and surface anchoring near the contact line. Because of weak surface anchoring, the director field in the capillary rise region is uniform. From the measured rise (6 µm) of the meniscus at the wall we determine the isotropic-nematic surface tension to be 3 nN/m, in quantitative agreement with our theoretical and simulation results.",

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T1 - Isotropic-nematic interface and wetting in suspensions of colloidal platelets

AU - Beek, van der, D.

AU - Reich, H.

AU - Schoot, van der, P.P.A.M.

AU - Dijkstra, M.

AU - Schilling, T.

AU - Vink, R.

AU - Schmidt, M.

AU - Roij, van, R.

AU - Lekkerkerker, H.N.W.

PY - 2006

Y1 - 2006

N2 - We study interfacial phenomena in a colloidal dispersion of sterically stabilized gibbsite platelets, exhibiting coexisting isotropic and nematic phases separated by a sharp horizontal interface. The nematic phase wets a vertical glass wall and polarized light micrographs reveal homeotropic surface anchoring both at the free isotropic-nematic interface and at the wall. On the basis of complete wetting of the wall by the nematic phase, as found in our density functional calculations and computer simulations, we analyze the balance between Frank elasticity and surface anchoring near the contact line. Because of weak surface anchoring, the director field in the capillary rise region is uniform. From the measured rise (6 µm) of the meniscus at the wall we determine the isotropic-nematic surface tension to be 3 nN/m, in quantitative agreement with our theoretical and simulation results.

AB - We study interfacial phenomena in a colloidal dispersion of sterically stabilized gibbsite platelets, exhibiting coexisting isotropic and nematic phases separated by a sharp horizontal interface. The nematic phase wets a vertical glass wall and polarized light micrographs reveal homeotropic surface anchoring both at the free isotropic-nematic interface and at the wall. On the basis of complete wetting of the wall by the nematic phase, as found in our density functional calculations and computer simulations, we analyze the balance between Frank elasticity and surface anchoring near the contact line. Because of weak surface anchoring, the director field in the capillary rise region is uniform. From the measured rise (6 µm) of the meniscus at the wall we determine the isotropic-nematic surface tension to be 3 nN/m, in quantitative agreement with our theoretical and simulation results.

U2 - 10.1103/PhysRevLett.97.087801

DO - 10.1103/PhysRevLett.97.087801

M3 - Article

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SN - 0031-9007

VL - 97

SP - 087801

JO - Physical Review Letters

JF - Physical Review Letters

IS - 8

M1 - 087801

ER -

Isotropic-nematic interface and wetting in suspensions of colloidal platelets

Abstract

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