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    Control of Director Fields in Phospholipid-Coated Liquid Crystal Droplets

    Year: 2020

    Journal: Langmuir, Volume 36, JUN 16, page 6436–6446

    Authors: Paterson, DA; Bao, P; Abou-Saleh, RH; Peyman, SA; Jones, JC; Sandoe, JAT; Evans, SD; Gleeson, HF; Bushby, RJ

    Organizations: EPSRC (UK)UK Research & Innovation (UKRI)Engineering & Physical Sciences Research Council (EPSRC) [EP/P024041/1]; Health Services and Delivery Research Programme [MIC-2016-004, MRC: MR/M009084/1]; EPSRCUK Research & Innovation (UKRI)Engineering & Physical Sciences Research Council (EPSRC) [EP/EP/P023266/1, EP/L015188/2]

    In liquid crystal (LC) droplets, small changes in surface anchoring energy can produce large changes in the director field which result in readily detectable optical effects. This makes them attractive for use as biosensors. Coating LC droplets with a phospholipid monolayer provides a bridge between the hydrophobic world of LCs and the water-based world of biology and makes it possible to incorporate naturally occurring biosensor systems. However, phospholipids promote strong perpendicular (homeotropic) anchoring that can inhibit switching of the director field. We show that the tendency for phospholipid layers to promote perpendicular anchoring can be suppressed by using synthetic phospholipids in which the acyl chains are terminated with bulky tert-butyl or ferrocenyl groups; the larger these end-group(s), the less likely the system is to be perpendicular/radial. Additionally, the droplet director field is found to be dependent on the nature of the LC, particularly its intrinsic surface properties, but not (apparently) on the sign of the dielectric anisotropy, the proximity to the melting/isotropic phase transition, the surface tension (in air), or the values of the Frank elastic constants.
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