Elementary autonomous surface microfluidic devices based on laser-fabricated wetting gradient microtextures that drive directional water flows.

N N Shchedrina,S I Kudryashov,V P Veiko,P A Danilov,I V Krylach,E A Davydova,M V Uspenskaya,G V Odintsova,M I Fokina,M K Moskvin,R O Olekhnovich,A G Bondarenko

doi:10.1364/oe.418173

Elementary autonomous surface microfluidic devices based on laser-fabricated wetting gradient microtextures that drive directional water flows.

N N Shchedrina, S I Kudryashov + Show 10 more

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https://doi.org/10.1364/oe.418173

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Journal: Optics Express	Publication Date: Apr 9, 2021
Citations: 7	License type: cc-by

Affiliation: ITMO University, P.N. Lebedev Physical Institute of the Russian Academy of Sciences

#Directional Water Flow #Elementary Devices + Show 8 more

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Abstract

Topography-dependent tuning of water wettability was achieved on a stainless steel surface textured by nanosecond-laser pulses at different laser fluences, with the minimal contribution of the surface chemical modification. Such differently-wet neighboring surface spots were demonstrated to drive an autonomous directional water flow. A series of elementary microfluidic devices based on the spatial wetting gradients were designed and tested as building blocks of "green", energy-saving autonomous microfluidic circuits.

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