Characterization of the cylindrical cavities of Anopore and Nuclepore membranes

15 May 1992

journal article
Published by AIP Publishing in The Journal of Chemical Physics

Vol. 96 (10) , 7788-7796
https://doi.org/10.1063/1.462376

Abstract

The microscopic properties of the inner surface of the cavities of Anopore and Nuclepore membranes are investigated with scanning electron microscopy (SEM), nitrogen adsorption isotherms, and deuterium nuclear magnetic resonance (²H‐NMR). Useful information about the cavity orientation and morphology, and internal surface area is obtained. Analysis of SEM photographs yields estimates of the surface area and the porosity of these membranes which complements the adsorption results. The orientation of liquid crystals permeated in the cavities of Anopore and Nuclepore membranes is probed with the ²H‐NMR technique. It is found that the orientation of the liquid crystal molecules is governed by the confining volume and surface conditions. The ²H‐NMR spectral line shape of the confined liquid crystal also provides information on the substrate morphology and roughness that is consistent with SEM and adsorption experiments.

Keywords

This publication has 18 references indexed in Scilit:

Determination of the liquid-crystal surface elastic constant $K_{24}$
Physical Review Letters, 1991
Surface-induced orientational order in the isotropic phase of a liquid-crystal material
Physical Review A, 1991
Ordering and self-diffusion in the first molecular layer at a liquid-crystal–polymer interface
Physical Review Letters, 1991
Escaped-radial nematic configuration in submicrometer-size cylindrical cavities: Deuterium nuclear-magnetic-resonance study
Physical Review A, 1991
Relationship between solute retention in supercritical fluid chromatography and fluctuation integrals in dilute supercritical mixtures
The Journal of Physical Chemistry, 1991
Order parameter of a nematic liquid crystal on a rough surface
Physical Review A, 1990
The formation of controlled-porosity membranes from anodically oxidized aluminium
Nature, 1989
Disorder and the Superfluid Transition in Liquid ${}^{4}{He}$
Physical Review Letters, 1988
Sharp Heat-Capacity Signature at the Superfluid Transition of Helium Films in Porous Glasses
Physical Review Letters, 1988
The morphology and mechanism of formation of porous anodic films on aluminium
Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences, 1970