Topological defects as nucleation points of the nematic-isotropic phase transition in liquid crystal shells

Yucen Han, Jan Lagerwall, Apala Majumdar

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The transition from a nematic to an isotropic state in a self-closing spherical liquid crystal shell with tangential alignment is a stimulating phenomenon to investigate, as the topology dictates that the shell exhibits local isotropic points at all temperatures in the nematic phase range, in the form of topological defects. The defects may thus be expected to act as nucleation points for the phase transition upon heating beyond the bulk nematic stability range. Here we study this peculiar transition, theoretically and experimentally, for shells with two different configurations of four +1/2 defects, finding that the defects act as the primary nucleation points if they are co-localized in each other’s vicinity. If the defects are instead spread out across the shell, they again act as nucleation points, albeit not necessarily the primary ones. Beyond adding to our understanding of how the orientational order–disorder transition can take place in the shell geometry, our results have practical relevance for, e.g., the use of curved liquid crystals in sensing applications or for liquid crystal elastomer actuators in shell shape, undergoing a shape change as a result of the nematic–isotropic transition.
Original languageEnglish
Article number064702
Number of pages12
JournalPhysical Review E
Issue number6
Publication statusPublished - 11 Jun 2024


  • topology
  • liquid crystal shell
  • nematic phase range


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