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Light-driven peristaltic pumping by an actuating splay-bend strip

Klaudia Dradrach, Michał Zmyślony, Zixuan Deng, Arri Priimägi, John S. Biggins, Piotr Wasylczyk

2023Nature Communications33 citationsDOIOpen Access PDF

Abstract

Despite spectacular progress in microfluidics, small-scale liquid manipulation, with few exceptions, is still driven by external pumps and controlled by large-scale valves, increasing cost and size and limiting complexity. By contrast, optofluidics uses light to power, control and monitor liquid manipulation, potentially allowing for small, self-contained microfluidic devices. Here we demonstrate a soft light-propelled actuator made of liquid crystal gel that pumps microlitre volumes of water. The strip of actuating material serves as both a pump and a channel leading to an extremely simple microfluidic architecture that is both powered and controlled by light. The performance of the pump is well explained by a simple theoretical model in which the light-induced bending of the actuator competes with the liquid's surface tension. The theory highlights that effective pumping requires a threshold light intensity and strip width. The proposed system explores the benefits of shifting the complexity of microfluidic systems from the fabricated device to spatio-temporal control over stimulating light patterns.

Topics & Concepts

MicrofluidicsActuatorMaterials scienceOptofluidicsPeristaltic pumpNanotechnologyBendingSurface tensionFlow control (data)FluidicsLight intensityOptoelectronicsOpticsMechanical engineeringComputer scienceElectrical engineeringComposite materialPhysicsEngineeringQuantum mechanicsComputer networkAdvanced Materials and MechanicsElectrowetting and Microfluidic TechnologiesMicro and Nano Robotics
Light-driven peristaltic pumping by an actuating splay-bend strip | Litcius