Wetting and dewetting of nanoscale films of nematic liquid crystal

Linda Cummings; Lou Kondic; Michael Lam; Ensela Mema

Wetting and dewetting of nanoscale films of nematic liquid crystal

· Invited

Abstract

The evolution of ultra-thin films (tens of nm) of nematic liquid crystals (NLCs) is considered. Such free-surface films can undergo complex dewetting behavior, as observed in experiments. We present a simplified thin-film model for the free surface evolution that includes strong spatially-varying planar anchoring at the substrate, and weak antagonistic anchoring at the free surface. A number of large-scale simulations are presented, showing good qualitative agreement with experiments. Ongoing work including the effect of spatially-varying electric fields on film evolution is briefly highlighted.

^*NSF DMS 1815613

March 2, 2020, 8:00 AM – March 2, 2020, 8:36 AM

Presenters

Linda Cummings
- New Jersey Institute of Technology
- New Jersey Inst of Tech

Authors

Linda Cummings
- New Jersey Institute of Technology
- New Jersey Inst of Tech
Lou Kondic
- New Jersey Institute of Technology
- New Jersey Inst of Tech
- Department of Mathematical Sciences and Center for Applied Mathematics and Statistics, New Jersey Institute of Technology
- Mathematical Sciences Department, New Jersey Institute of Technology
- Chemical Engineering, New Jersey Institute of Technology
Michael Lam
- Coastal Hydraulics Laboratory
Ensela Mema
- Mathematics, West Point Military Academy