Transport of Liquid Phase Organic Solutes in Liquid Crystalline Membranes

Han, Sangil

27 September 2010

Porous cellulose nitrate membranes were impregnated with 8CB and PCH5 LCs (liquid crystals) and separations of solutes dissolved in aqueous phases were performed while monitoring solute concentration via UV-VIS spectrometry. The diffusing organic solutes, which consist of one aromatic ring and various functional groups, were selected to exclude molecular size effects on the diffusion and sorption. We studied the effects on solute transport of solute intra-molecular hydrogen bonding and solute/LC intermolecular hydrogen bonding. Hydrogen-bonding effects are a significant factor in the permeation selectivity of positional isomers. The reduction of available hydrogen-bond donors in aromatic ortho-isomers due to intramolecular H-bonding resulted in significant differences in the diffusion relative to the para-isomers which possessed more available H-bond donors. Solutes possessing multiple H-bonding interactions experienced a higher barrier to diffusion and, consequently, lower diffusivities. Diffusing solutes with a single available H-bond donor exhibited faster diffusion than solutes without H-bond donors. PCH5 embedded membranes showed higher solubility and diffusivity than the 8CB embedded membranes due to less dense molecular packing in PCH5 resulting from the bent cyclohexyl ring. The PCH5 LC membranes demonstrated enhanced permeation selectivity for hydroxybenzoic acid and aminophenol isomers primarily due to increased sorption selectivity. Shape selective absorption of rod-like para-isomers in the nematic phase was observed in both 8CB and PCH5 LCs. A nonchiral based HPLC-CD (High Performance Liquid Chromatography-CD) system was developed for the characterization of enantioselective separations. An enantioselective cholesteric liquid crystal membrane was fabricated and evaluated using the nonchiral HPLC-CD system. The cholesteric LC membrane showed enantioselectivity in the cholesteric phase where activation energies of permeation for 1-phenylethanol enantiomers were significantly increased due to the increased interactions between enantiomer and LC phase. The enantioselectivity increased with decreasing pore size of the membrane and increasing chiral dopant compositions. The selectivity decreases when there are no hydrogen bonding interactions between enantiomer and chiral dopant. / Ph. D.

enantiomers

circular dichroism

chirality

Liquid crystals

membrane

isomers

Topology and Geometry Guided Structures in Equilibrium and Out-Of-Equilibrium LCs

Koizumi, Runa

21 November 2022

No description available.

Physics

Condensed Matter Physics

Electro-optics of Oblique Helicoidal Cholesterics

Iadlovska, Olena

28 November 2022

No description available.

Physics

Materials Science

Optics

A magneto and electrooptic study of ferroelectric liquid crystals

Li, Zili

January 1991

No description available.

Physics, Condensed Matter

Oligomeric liquid crystals: Viscoelastic properties and surface interactions

DiLisi, Gregory Anthony

January 1992

No description available.

Physics, Condensed Matter

Oligomeric liquid crystals

Viscoelastic properties

Electrooptic Studies of Liquid Crystalline Phases and Magnetically Levitated Liquid Bridges

Patel, Neha Mehul

02 April 2004

No description available.

Liquid Crystals

Electrooptic

Antiferroelectric

Lamellar

Microgravity

Liquid Bridges

Surfactant

Stability

Liquid Crystal Polymers And Dendritic Liquid Crystals: Synthesis, Morphology, Rheology And Binary Mixtures

Dong, Shaosheng

January 2005

No description available.

Liquid crystals

Synthesis

Polymerization

Binary mixtures

Rheology

and Dendritic liquid crystal.

SURFACE MEDIATED NONLINEAR OPTIC EFFECTS IN LIQUID CRYSTALS

Merlin, Jessica M.

25 January 2007

No description available.

Physics, Optics

LIQUID CRYSTALS

Friedericksz Transition

Nematic Liquid Crystal

High Dielectric Constant Materials Containing Liquid Crystals

Braganza, Clinton Ignatuis

20 July 2009

No description available.

Materials Science

Physics

High Dielectric Constant

liquid crystals and surfactant

Electrically-tunable Colors of Chiral Liquid Crystals for Photonic and Display Applications

Lu, Shin-Ying

16 July 2010

No description available.

Physics

polymer stabilized

cholesteric liquid crystals

blue phase

carbon nanotubes