PEER-REVIEWED PUBLICATION

2025

Stiffening Liquid Crystal Elastomers with Liquid Crystal Inclusions

Vasanji S, Scarfo MG, et al.

Advanced Materials

University of Waterloo, Kent State University, University of Cambridge

RESEARCH SUMMARY

Thiol–acrylate liquid crystal elastomers (LCEs) were doped with low-molecular-weight liquid crystals (5CB or 8CB), which phase-separated post-polymerization and developed strain-induced cybotactic smectic domains during polydomain→monodomain alignment. This inclusion dramatically stiffened the materials without sacrificing molecular order or thermal strain: monodomain LC‑LCEs showed ~6.5–9× higher Young’s modulus than pristine LCEs, with more than 2× higher work density and active thermal stroke up to ~25% under load. Polydomain LC‑LCEs exhibited an emergent linear-elastic regime before the soft-elastic plateau; SAXS/WAXS evidenced SmA‑like ordering within LC-rich domains (~130–220 nm correlation length). A capillarity-based mechanism plus frozen-in smectic layering explains the stiffening.

A CellScale UniVert universal tester was used extensively: (i) to uniaxially strain polydomain samples to program monodomain alignment before UV crosslinking; (ii) polydomain tensile tests on 12×4×0.5 mm specimens with a 10 N load cell at 0.1 mm/s to failure with 0.1 N preload; (iii) monodomain tensile tests parallel to alignment using a 50 N load cell at 0.1 mm/s (gauge length 5 mm, width 4 mm); (iv) isometric thermal stress measurements with a 10 N load cell while heating. UniVert force–displacement data provided elastic moduli in pre- and post-soft-plateau regions.

AUTHORS

Vasanji S, Scarfo MG, Alyami A, Mekonnen TH, Hajireza P, Saed MO, Jákli A, Shahsavan H.

PUBLICATION DETAILS

JOURNAL

Advanced Materials

YEAR

2025

INSTITUTIONS

University of Waterloo, Kent State University, University of Cambridge

COUNTRIES

Canada, United Kingdom, United States

INSTRUMENT USED

UniVert

TESTING METHODS

Tensile Testing

RESEARCH APPLICATIONS

Electroactive and Photothermal PolymersMaterial Fatigue and DurabilityPolymers and Elastomers TestingSoft Robotics Materials

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