Light‐Induced Material Motion Fingerprint – A Tool Toward Selective Interfacial Sensitive Fractioning of Microparticles via Microfluidic Methods

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Abstract: In this article, a novel strategy is presented to selectively separate a mixture of equally sized microparticles but differences in material composition and surface properties. The principle relies on a photosensitive surfactant, which makes particles under light illumination phoretically active. The latter hovers microparticles from a planar interface and together with a superimposed fluid flow, particles experience a drift motion characteristic to its interfacial properties. The drift motion is investigated as a function of applied wavelength, demonstrating that particles composed of different material show a unique spectrally resolved light‐induced motion profile. Differences in those motion profile allow a selective fractioning of a desired particle from a complex particle mixture made out of more than two equally sized different particle types. Besides that, the influence of applied wavelength is systematically studied, and discussed the origin of the spectrally resolved chemical activity of microparticles from measured photo‐isomerization rates.

Location: Deutsche Nationalbibliothek Frankfurt am Main

Extent: Online-Ressource

Language: Englisch

Bibliographic citation: Light‐Induced Material Motion Fingerprint – A Tool Toward Selective Interfacial Sensitive Fractioning of Microparticles via Microfluidic Methods ; day:05 ; month:07 ; year:2024 ; extent:12
Small ; (05.07.2024) (gesamt 12)

Creator: Vasquez Muñoz, Daniela
Rohne, Fabian
Meier, Isabel
Sharma, Anjali
Lomadze, Nino
Santer, Svetlana
Bekir, Marek

DOI: 10.1002/smll.202403546

URN: urn:nbn:de:101:1-2407081514208.316564390417

Rights: Open Access; Der Zugriff auf das Objekt ist unbeschränkt möglich.

Last update: 14.08.2025, 10:53 AM CEST

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Vasquez Muñoz, Daniela
Rohne, Fabian
Meier, Isabel
Sharma, Anjali
Lomadze, Nino
Santer, Svetlana
Bekir, Marek

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Light‐Induced Material Motion Fingerprint – A Tool Toward Selective Interfacial Sensitive Fractioning of Microparticles via Microfluidic Methods

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