Self-Cleaning Surfaces Realized by Biologically Sized Magnetic Artificial Cilia

Zhiwei Cui, Shuaizhong Zhang, Ye Wang, Laura Tormey, Olivia S. Kanies, Richard Chasen Spero, Jay K. Fisher, Jaap M.J. den Toonder (Corresponding author)

Onderzoeksoutput: Bijdrage aan tijdschriftTijdschriftartikelAcademicpeer review

11 Citaten (Scopus)
144 Downloads (Pure)

Samenvatting

Magnetic artificial cilia (MAC) are small actuators inspired by biological cilia found in nature. In microfluidic chips, MAC can generate flow and remove microparticles, with applications in anti-fouling. However, the MAC used for anti-fouling in the current literature has dimensions of several hundred micrometers in length, which limits the application to relatively large length scales. Here, biologically-sized magnetic artificial cilia (b-MAC) which are only 45 micrometers long and that are randomly distributed on the surface, are used to remove microparticles. It is shown that microparticles with sizes ranging from 5 to 40 µm can be removed efficiently and the final cleanness ranges from 69% to 100%, with the highest cleanness for the highest actuation frequency applied (40 Hz). The lowest cleanness is obtained for microparticles with a size equal to the average pitch between the b-MAC. The randomness in cilia distribution appears to have a positive effect on cleanliness, compared with the authors’ earlier work using a regular cilia array. The demonstrated self-cleaning by the b-MAC constitutes an essential step toward efficient self-cleaning surfaces for real-life application in miniaturized microfluidic devices, such as lab-on-a-chip or organ-on-a-chip devices, as well as for preventing fouling of submerged surfaces such as marine sensors.

Originele taal-2Engels
Artikelnummer2102016
Aantal pagina's8
TijdschriftAdvanced Materials Interfaces
Volume9
Nummer van het tijdschrift5
DOI's
StatusGepubliceerd - 14 feb. 2022

Bibliografische nota

Publisher Copyright:
© 2021 The Authors. Advanced Materials Interfaces published by Wiley-VCH GmbH.

Financiering

This work is supported by the European Research Council (ERC) Advanced Grant Bio‐Plan project under grant agreement no. 833214. Z.C. is financially supported by the China Scholarship Council under grant no. 201706400061.

FinanciersFinanciernummer
European Union’s Horizon Europe research and innovation programme833214
European Research Council
China Scholarship Council201706400061

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