Microliter Ultrafast Centrifuge Platform for Size-based Particle and Cell Separation and Extraction Using Novel Omnidirectional Spiral Surface Acoustic Waves

Overview

Journal Lab Chip

Publisher Royal Society of Chemistry

Specialties Biotechnology
Chemistry

Date 2021 Jan 13

PMID 33438699

Citations 11

Authors

Naiqing Zhang

Juan P Zuniga-Hertz

Elizabeth Yan Zhang

Tilvawala Gopesh

McKenzie J Fannon

Jiaying Wang

Yue Wen

Hemal H Patel

James Friend

Affiliations

Soon will be listed here.

Abstract

Asymmetric surface acoustic waves have been shown useful in separating particles and cells in many microfluidics designs, mostly notably sessile microdroplets. However, no one has successfully extracted target particles or cells for later use from such samples. We present a novel omnidirectional spiral surface acoustic wave (OSSAW) design that exploits a new cut of lithium niobate, 152 Y-rotated, to rapidly rotate a microliter sessile drop to ∼10 g, producing efficient multi-size particle separation. We further extract the separated particles for the first time, demonstrating the ability to target specific particles, for example, platelets from mouse blood for further integrated point-of-care diagnostics. Within ∼5 s of surface acoustic wave actuation, particles with diameter of 5 μm and 1 μm can be separated into two portions with a purity of 83% and 97%, respectively. Red blood cells and platelets within mouse blood are further demonstrated to be separated with a purity of 93% and 84%, respectively. These advancements potentially provide an effective platform for whole blood separation and point-of-care diagnostics without need for micro or nanoscale fluidic enclosures.

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