Jump to main content
Jump to site search

Issue 45, 2015
Previous Article Next Article

Colloidal spirals in nematic liquid crystals

Author affiliations


One of the central experimental efforts in nematic colloids research aims to explore how the interplay between the geometry of particles along with the accompanying nematic director deformations and defects around them can provide a means of guiding particle self-assembly and controlling the structure of particle-induced defects. In this work, we design, fabricate, and disperse low-symmetry colloidal particles with shapes of spirals, double spirals, and triple spirals in a nematic fluid. These spiral-shaped particles, which are controlled by varying their surface functionalization to provide tangential or perpendicular boundary conditions of the nematic molecular alignment, are found inducing director distortions and defect configurations with non-chiral or chiral symmetry. Colloidal particles also exhibit both stable and metastable multiple orientational states in the nematic host, with a large number of director configurations featuring both singular and solitonic nonsingular topological defects accompanying them, which can result in unusual forms of colloidal self-assembly. Our findings directly demonstrate how the symmetry of particle-generated director configurations can be further lowered, or not, as compared to the low point group symmetry of solid micro-inclusions, depending on the nature of induced defects while satisfying topological constraints. We show that achiral colloidal particles can cause chiral symmetry breaking of elastic distortions, which is driven by complex three-dimensional winding of induced topological line defects and solitons.

Graphical abstract: Colloidal spirals in nematic liquid crystals

Back to tab navigation

Article information

23 Jun 2015
03 Sep 2015
First published
04 Sep 2015

Soft Matter, 2015,11, 8758-8767
Article type

Colloidal spirals in nematic liquid crystals

B. Senyuk, M. B. Pandey, Q. Liu, M. Tasinkevych and I. I. Smalyukh, Soft Matter, 2015, 11, 8758
DOI: 10.1039/C5SM01539A

Social activity

Search articles by author