Issue 12, 2018

Topographical changes in photo-responsive liquid crystal films: a computational analysis

Abstract

Switchable materials in response to external stimuli serve as building blocks to construct microscale functionalized actuators and sensors. Azobenzene-modified liquid crystal (LC) polymeric networks, that combine liquid crystalline orientational order and elasticity, reversibly undergo conformational changes powered by light. We present a computational framework to describe photo-induced topographical transformations of azobenzene-modified LC glassy polymer coatings. A nonlinear light penetration model is combined with an opto-mechanical constitutive relation to simulate various ordered and corrugated topographical textures resulting from aligned or randomly distributed LC molecule orientations. Our results shed light on the fundamental physical mechanisms of light-triggered surface undulations and can be used as guidelines to optimize surface modulation and roughness in emerging fields that involve haptics interfacing, friction control and wetting manipulation.

Graphical abstract: Topographical changes in photo-responsive liquid crystal films: a computational analysis

Supplementary files

Article information

Article type
Paper
Submitted
16 Dec 2017
Accepted
13 Feb 2018
First published
15 Feb 2018

Soft Matter, 2018,14, 2411-2428

Topographical changes in photo-responsive liquid crystal films: a computational analysis

L. Liu and P. R. Onck, Soft Matter, 2018, 14, 2411 DOI: 10.1039/C7SM02474F

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