Cilia Metasurfaces for Electronically Programmable Microfluidic Manipulation

Overview

Journal Nature

Specialty Science

Date 2022 May 25

PMID 35614247

Authors

Wei Wang

Qingkun Liu

Ivan Tanasijevic

Michael F Reynolds

Alejandro J Cortese

Marc Z Miskin

Michael C Cao

David A Muller

Alyosha C Molnar

Eric Lauga

Paul L McEuen

Itai Cohen

Affiliations

Soon will be listed here.

Abstract

Cilial pumping is a powerful strategy used by biological organisms to control and manipulate fluids at the microscale. However, despite numerous recent advances in optically, magnetically and electrically driven actuation, development of an engineered cilial platform with the potential for applications has remained difficult to realize. Here we report on active metasurfaces of electronically actuated artificial cilia that can create arbitrary flow patterns in liquids near a surface. We first create voltage-actuated cilia that generate non-reciprocal motions to drive surface flows at tens of microns per second at actuation voltages of 1 volt. We then show that a cilia unit cell can locally create a range of elemental flow geometries. By combining these unit cells, we create an active cilia metasurface that can generate and switch between any desired surface flow pattern. Finally, we integrate the cilia with a light-powered complementary metal-oxide-semiconductor (CMOS) clock circuit to demonstrate wireless operation. As a proof of concept, we use this circuit to output voltage pulses with various phase delays to demonstrate improved pumping efficiency using metachronal waves. These powerful results, demonstrated experimentally and confirmed using theoretical computations, illustrate a pathway towards fine-scale microfluidic manipulation, with applications from microfluidic pumping to microrobotic locomotion.

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