Effect of molecular structure and packing density of an azo self-assembled monolayer on liquid crystal alignment

M. R. Vengatesan, Seung Ho Lee, Jong Ho Son, Jeong Ku Lim, Jang Kun Song

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    6 Scopus citations

    Abstract

    We studied the alignment of liquid crystals (LCs) on a photo-switchable azo-containing self-assembled monolayer (azo-SAM) with different packing densities and molecular structures. The packing density of the azo-SAM substrates was varied by changing the dipping time of the substrate in azosilane monomers solution (2. mM in toluene). The thickness of the monolayer on the silicon substrate increased as the dipping time was increased. The relative surface packing density on the glass substrates was estimated from the surface energies of the azo-SAM. The photo-induced dynamics of liquid crystal alignment on the azo-SAM significantly varied according to the packing density of the azo-SAM and the structure of the azo-SAM molecules. The azo-SAM from long octyloxy chain-terminated azosilane (azo-S1) possessed stable homeotropic alignment even after photobuffing, while the azo-SAM from short methyl group-terminated azosilane monomer (azo-S2) showed photo-switchable homeotropic and planar alignments. However, when the packing density was increased to an excessive degree, even the azo-SAM from azo-S2 exhibited stable homeotropic alignment regardless of photobuffing.

    Original languageBritish English
    Pages (from-to)310-317
    Number of pages8
    JournalJournal of Colloid and Interface Science
    Volume407
    DOIs
    StatePublished - 1 Oct 2013

    Keywords

    • Alignment layer
    • Azo
    • Liquid crystals
    • Photo isomerization
    • Self-assembled monolayer (SAM)

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