Antiferroelectric ordering of amphiphilic glycolipids in bent-core liquid crystals.
Patrick Horner, Karla Blee, Elisabeth Adams
Index: Phys. Rev. E. Stat. Nonlin. Soft Matter Phys. 69(2 Pt 1) , 021703, (2004)
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Abstract
Lipids are the main constituents of biological cell membranes, and their liquid crystalline properties play a crucial role in cell functions. We have discovered that dodecyl-beta-D-glucopyranoside glycolipid layers can be electrically polarized in supramolecular structures of glycolipid and bent-core ("banana-shape") molecules. Interestingly the glycolipid molecules, known to be excellent chiral dopants, are not able to transfer their chirality to the bent-core layers. Our observations indicate that glycolipid molecules self-assemble into pairs of tilted and antiferroelectric double layers, sandwiched between layers of bent-core molecules. These systems may provide a basis for understanding "bioferroelectricity," which is important in biological cell membrane functions.
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