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Dynamic Shape Change of Liquid Crystal Polymer Based on An Order‐Order Phase Transition

Rong Yang, Yahui Wang, Hongjing Yao, Yanqing Li, Li Chen, Yue Zhao, Yu‐Zhong Wang

2024Angewandte Chemie International Edition13 citationsDOI

Abstract

Liquid crystal actuators conventionally undergo shape changes across an order-disorder phase transition between liquid crystal (LC) and isotropic phases. In this study, we introduce an innovative Liquid Crystal Polymer (LCP) actuator harnessing an order-order LC phase transition mechanism. The LCP film is easily stretchable within the LC phase, facilitated by the π-π stacking of phenyl groups serving as robust physical crosslinking points, and thereby transforms to a stable monodomain structure. The resultant monodomain LCP actuator shows a distinctive reversible dynamic shape change, exhibiting extension followed by contraction along the LC director on cooling. The extension is propelled by the reversible smectic C to smectic A phase transition, and the contraction is attributed to the re-entry to the smectic C phase from smectic A phase. Thermal annealing temperature determines this peculiar dynamic shape change, which occurs during both heating and cooling processes. This pivotal attribute finds manifestation in gripper and flower-shaped actuators, adeptly executing grabbing and releasing as well as blooming and closure motions within a single thermal stimulation. In essence, our study introduces an innovative approach to the realm of LCP actuators, ushering in a new avenue for the design and fabrication of versatile and dynamically responsive LCP actuators.

Topics & Concepts

Liquid crystalPhase transitionMaterials scienceActuatorPolymerAnnealing (glass)Chemical physicsFabricationIsotropyPhase (matter)NanotechnologyComposite materialCondensed matter physicsChemistryOpticsOptoelectronicsComputer sciencePhysicsOrganic chemistryArtificial intelligenceMedicinePathologyAlternative medicineAdvanced Materials and MechanicsLiquid Crystal Research AdvancementsAdvanced Sensor and Energy Harvesting Materials