An all-acoustic toolbox for performing unit operations and their combinations on levitated droplets
Jianqing Li, Nicholas J. Goddard, Khalid Haliru, Ruchi Gupta

TL;DR
A new all-acoustic system can generate, move, and merge droplets in mid-air for contactless chemical reactions, potentially reducing plastic waste in labs.
Contribution
The first all-acoustic toolbox for droplet manipulation with integrated optical detection and application to biochemical assays.
Findings
Droplets containing up to 50% DMSO were successfully generated using acoustic forces.
The system achieved a droplet holding success rate of 78-95% depending on droplet size and voltage.
An esterase enzyme assay in levitated droplets showed a higher reaction rate compared to traditional microtiter plates.
Abstract
Automatic and contactless manipulation of droplets in mid-air has wide potential applications from materials processing to biochemistry and pharmaceutical development. To perform (bio)chemical reactions in a contactless and automated fashion, herein, we report an all-acoustic toolbox for performing unit operations (generate, hold, move and merge) on droplets with integrated optical detection. The toolbox was realized using phased arrays of ultrasound transducers in combination with pump and capillary nozzles to generate pendant droplets of required volumes and pulling them away from the tip of the nozzles using acoustic forces, then using the acoustic forces to move and merge droplets followed by quantitative measurements using the integrated optical detection. This is an unprecedented report on droplet generation by pulling pendant droplets using acoustic forces. The generation of…
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Taxonomy
TopicsMicrofluidic and Bio-sensing Technologies · Electrohydrodynamics and Fluid Dynamics · Microfluidic and Capillary Electrophoresis Applications
