Issue 2, 2024

Control of liquid crystals combining surface acoustic waves, nematic flows, and microfluidic confinement

Abstract

The optical properties of liquid crystals serve as the basis for display, diagnostic, and sensing technologies. Such properties are generally controlled by relying on electric fields. In this work, we investigate the effects of microfluidic flows and acoustic fields on the molecular orientation and the corresponding optical response of nematic liquid crystals. Several previously unknown structures are identified, which are rationalized in terms of a state diagram as a function of the strengths of the flow and the acoustic field. The new structures are interpreted by relying on calculations with a free energy functional expressed in terms of the tensorial order parameter, using continuum theory simulations in the Landau-de Gennes framework. Taken together, the findings presented here offer promise for the development of new systems based on combinations of sound, flow, and confinement.

Graphical abstract: Control of liquid crystals combining surface acoustic waves, nematic flows, and microfluidic confinement

Supplementary files

Article information

Article type
Paper
Submitted
26 Oct 2023
Accepted
07 Dec 2023
First published
14 Dec 2023
This article is Open Access
Creative Commons BY-NC license

Soft Matter, 2024,20, 397-406

Control of liquid crystals combining surface acoustic waves, nematic flows, and microfluidic confinement

G. A. Vásquez-Montoya, T. Emeršič, N. Atzin, A. Tavera-Vázquez, A. Mozaffari, R. Zhang, O. Guzmán, A. Snezhko, P. F. Nealey and J. J. de Pablo, Soft Matter, 2024, 20, 397 DOI: 10.1039/D3SM01443F

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