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Surface-induced ordering on model liquid crystalline dendrimers

Polymers (2014) 6(8) 2082-2099
DOI: 10.3390/polym6082082
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Abstract

The surface alignment of liquid crystalline dendrimers (LCDrs) is a key factor for many of their potential applications. Here, we present results from Monte Carlo simulations of LCDrs adsorbed on flat, impenetrable aligning substrates. A tractable coarse-grained force field for the inter-dendritic and the dendrimer-substrate interactions is introduced. We investigate the conformational and ordering properties of single, end-functionalized LCDrs under homeotropic, random (or degenerate) planar and unidirectional planar aligning substrates. Depending on the anchoring constrains to the mesogenic units of the LCDr and on temperature, a variety of stable ordered LCDr states, differing in their topology, are observed and analyzed. The influence of the dendritic generation and core functionality on the surface-induced ordering of the LCDrs are examined. © 2014 by the authors.

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APA

Workineh, Z. G., & Vanakaras, A. G. (2014). Surface-induced ordering on model liquid crystalline dendrimers. Polymers, 6(8), 2082–2099. https://doi.org/10.3390/polym6082082

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