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Programmable thermocapillary shaping of thin liquid films

Ran Eshel, Valeri Frumkin, Matan Nice, Omer Luria, Boris Ferdman, Nadav Opatovski, Khaled Gommed, Maxim Shusteff, Yoav Shechtman, Moran Bercovici

2022Flow11 citationsDOIOpen Access PDF

Abstract

We present a method that leverages projected light patterns as a mechanism for freeform deformation of a thin liquid film via the thermocapillary effect. We developed a closed-form solution for the inverse problem of the thin-film evolution equation, allowing us to obtain the projection pattern required in order to achieve a desired topography. We experimentally implement the method using a computer controlled light projector, which illuminates any desired pattern onto the bottom of a fluidic chamber patterned with heat–absorbing metal pads. The resulting heat map induces surface tension gradients in the liquid–air interface, giving rise to thermocapillary flow that deforms the liquid surface. If a polymer is used for the liquid film, it can then be photocured to yield a solid device. Based on the inverse-problem solutions and using this system, we demonstrate the fabrication of several diffractive optical elements, including phase masks for extended depth of field imaging, and for three-dimensional localization microscopy. The entire process, from projection to solidification, is completed in less than five minutes, and yields a sub-nanometric surface quality without any post-processing.

Topics & Concepts

ProjectorMaterials scienceSurface tensionProjection (relational algebra)FabricationFluidicsDeformation (meteorology)OpticsFlow (mathematics)Surface (topology)InverseThin filmMechanicsComposite materialNanotechnologyComputer scienceGeometryPhysicsAlternative medicinePathologyEngineeringAerospace engineeringMedicineQuantum mechanicsAlgorithmMathematicsElectrowetting and Microfluidic TechnologiesFluid Dynamics and Thin FilmsSurface Modification and Superhydrophobicity
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