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Developments for SAW-based aerosol generation: Miniaturized, cost-efficient, mass-producible, and reproducible systems

Mehrzad Roudini, Bhumika Patel, Andreas Winkler

2024Aerosol Science and Technology9 citationsDOIOpen Access PDF

Abstract

Surface Acoustic Wave (SAW) aerosol generators, also known as SAW nebulizers or SAW atomizers, are gaining widespread interest in a variety of technical processes due to their ability to produce directed fine mist aerosols with a narrow size distribution and at low shear forces. The interaction of a regulated microscale liquid film with an acoustic wave field on a microfluidic chip surface results in SAW aerosol generation. Future real-world applications require on-chip integrated microfluidic channels for low-cost fabrication of acoustofluidic chips with the required high fluid supply accuracy and reproducibility. In this work, SAW aerosol generation chips employing focused and straight IDTs as well as wafer-scale integrated microfluidic fluid feed channels created by a dry film photoresist multi-stage lamination and lithographic patterning technique were fabricated and validated regarding their performance. The manufactured chips were used with a highly-compact, cost-effective, and easy-to-handle chip holder for experimental studies. Using different SAW chips and liquids, atomization working regimens were determined. The aerosol generator achieved operation at flow rates of 10 μL/min and input power levels of 1 W. The implications of SAW wavelength, IDT type, applied power, liquids, and flow rate on device functionality are explored. Using laser diffraction analysis, it is shown that a simple chip-scale platform is capable of achieving a variable droplet size range. The developed SAW aerosol sources are currently the most advanced demonstrated in the literature and can be used in a variety of technical processes, including mass-spectrometry, olfactory displays, and aerosol-based printing.

Topics & Concepts

AerosolMicrofluidicsMicroscale chemistryMaterials scienceWaferMiniaturizationSurface acoustic waveChipFabricationPhotoresistNanotechnologyOptoelectronicsElectrical engineeringChemistryEngineeringAlternative medicineMedicineLayer (electronics)PathologyOrganic chemistryMathematics educationMathematicsMicrofluidic and Bio-sensing TechnologiesInhalation and Respiratory Drug DeliveryNanomaterials and Printing Technologies
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