Dynamically controlled deposition of colloidal nanoparticle suspension in evaporating drops using laser radiation

Dynamic control of the distribution of polystyrene suspended nanoparticles in evaporating droplets is investigated using a 2.9 μm high power laser. Under laser radiation a droplet is locally heated and fluid flows are induced that overcome the capillary flow, and thus a reversal of the coffee-stain...

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Veröffentlicht in:	Soft matter 2016-05, Vol.12 (2), p.453-4536
Hauptverfasser:	Ta, V. D, Carter, R. M, Esenturk, E, Connaughton, C, Wasley, T. J, Li, J, Kay, R. W, Stringer, J, Smith, P. J, Shephard, J. D
Format:	Artikel
Sprache:	eng
Schlagworte:	Capillary flow Droplets Dynamic control Evaporation Laser beams Liquids Nanostructure Polystyrene resins
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container_title	Soft matter
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creator	Ta, V. D Carter, R. M Esenturk, E Connaughton, C Wasley, T. J Li, J Kay, R. W Stringer, J Smith, P. J Shephard, J. D
description	Dynamic control of the distribution of polystyrene suspended nanoparticles in evaporating droplets is investigated using a 2.9 μm high power laser. Under laser radiation a droplet is locally heated and fluid flows are induced that overcome the capillary flow, and thus a reversal of the coffee-stain effect is observed. Suspension particles are accumulated in a localised area, one order of magnitude smaller than the original droplet size. By scanning the laser beam over the droplet, particles can be deposited in an arbitrary pattern. This finding raises the possibility for direct laser writing of suspended particles through a liquid layer. Furthermore, a highly uniform coating is possible by manipulating the laser beam diameter and exposure time. The effect is expected to be universally applicable to aqueous solutions independent of solutes (either particles or molecules) and deposited substrates. Particle deposition in a homogeneous or arbitrary distribution can be obtained by direct exposure to an infrared laser beam.
doi_str_mv	10.1039/c6sm00465b
format	Article
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source	Royal Society Of Chemistry Journals 2008-; Alma/SFX Local Collection
subjects	Capillary flow Droplets Dynamic control Evaporation Laser beams Liquids Nanostructure Polystyrene resins
title	Dynamically controlled deposition of colloidal nanoparticle suspension in evaporating drops using laser radiation
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