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Four-Dimensional Printed Liquid Crystalline Elastomer Actuators with Fast Photoinduced Mechanical Response toward Light-Driven Robotic Functions

Lorena Ceamanos, Zehra Kahveci, María López‐Valdeolivas, Danqing Liu, Dirk J. Broer, Carlos Sánchez‐Somolinos

2020ACS Applied Materials & Interfaces134 citationsDOIOpen Access PDF

Abstract

Remote light exposure of photoresponsive liquid crystalline polymers has drawn great attention over the last years as an attractive strategy to generate mechanical work with high spatial resolution. To tailor these materials into practical engineering devices, it is of key importance to gain control over their morphology and thus precisely program their mechanical response, which must also be fast and relevant in magnitude. In this communication, we report the four-dimensional (4D) printing of azobenzene-containing liquid crystalline elastomers (LCEs) that respond to light. During extrusion of the LCE precursor, mesogen orientation is defined by the needle's moving direction enabling a precise definition of the director, which is later fixed by photopolymerization. Fast mechanical responses have been observed in these 4D printed LCE elements when excited with ultraviolet (UV) light. These 4D printed elements lift objects many times heavier than their own weight, demonstrating a capacity to produce effective work. Photochemical and photothermal contributions to the deformation and force have been identified. Advantageously, the use of blue and UV light excitation enables adjustment of generated forces that can be maintained even in the dark and can be released by light excitation or temperature. The demonstrated ability to generate light-responsive elements quickly delivering sufficient work paves the way for implementing remotely addressed mechanical functions to future soft robotics and engineering.

Topics & Concepts

Materials scienceElastomerSoft roboticsAzobenzeneActuatorUltraviolet lightLiquid crystallinePhotopolymerPhotothermal effectNanotechnology3D printingPolymerOptoelectronicsComposite materialPhotothermal therapyComputer sciencePolymerizationArtificial intelligenceAdvanced Materials and MechanicsAdvanced Sensor and Energy Harvesting MaterialsPolymer composites and self-healing
Four-Dimensional Printed Liquid Crystalline Elastomer Actuators with Fast Photoinduced Mechanical Response toward Light-Driven Robotic Functions | Litcius