Title of article
In situ X-ray Diffraction Studies of a Multilayered Membrane Fluid under Confinement and Shear
Author/Authors
Y. Li، نويسنده , , Y. Golan، نويسنده , , A. Martin-Herranz، نويسنده , , O. Pelletier، نويسنده , , M. Yasa، نويسنده , , J. N. Israelachivili and C. R. Safinya ، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2001
Pages
10
From page
1175
To page
1184
Abstract
The structure of a fluid membrane system composed of surfactant-co-surfactant-
oil-water mixtures has been investigated under confinement and shear conditions.
Small angle x-ray scattering (SAXS) was employed with a second generation x-ray
surface forces apparatus (XSFA-II) to study the time evolution of the orienta-
tional structure of the lamellar fluid under oscillatory shear. In a regime of
relatively big confinement gap (t800 +m) and small shear amplitude (t40 +m),
direct evidence of an ``orientational phase separationʹʹ behavior, where a surface
boundary layer adopts different orientation and separates from the bulk region,
was observed for the first time. Under continuous shearing, the surface bound-
ary layer grows in thickness and aligns towards a shear-favored (low friction)
state while the bulk orientation remains unchanged. To further investigate the
effects of surface confinement, we spatially mapped, in t1 +m sections, the
orientation structure of the lamellar fluid sample confined between two glass
surfaces using a micro-focused x-ray beam produced by a linear Bragg Fresnel
lens at the Advanced Photon Source. The data confirmed the expected trend
that the smectic domains align progressively better with respect to the surface
as they approach the surface.
Keywords
complex fluids , confinement , Surface forces , x-ray micro-diffraction.
Journal title
International Journal of Thermophysics
Serial Year
2001
Journal title
International Journal of Thermophysics
Record number
426772
Link To Document