Visible light-photoreactive composite surfaces with thermoresponsive wetting and photocatalytic properties

Visible light-photoreactive composite surfaces with thermoresponsive wetting and photocatalytic properties

With the increasing demand for liquid manipulation and microfluidic techniques, surfaces with external stimuli induced real-time tunable wetting properties are getting into the focus of materials science research. In this study, we present poly(dimethylsiloxane) (PDMS) copolymer-based composite coat...

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Autores principales: László Mérai, Ágota Deák, Balázs Szalai, Gergely Ferenc Samu, Gábor Katona, László Janovák
Formato: article
Lenguaje:EN
Publicado: Budapest University of Technology 2022
Materias:
polymer composites
stimulus-responsive
photodegradation
smart polymers
coatings
Materials of engineering and construction. Mechanics of materials
TA401-492
Chemical technology
TP1-1185
Acceso en línea:https://doaj.org/article/cf47bb5f7adc4120ae7ab163fb594ec2
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Sumario:With the increasing demand for liquid manipulation and microfluidic techniques, surfaces with external stimuli induced real-time tunable wetting properties are getting into the focus of materials science research. In this study, we present poly(dimethylsiloxane) (PDMS) copolymer-based composite coatings with thermally adjustable wetting and visible-light photoreactivity. To give thermal responsivity to the spray-coated or doctor blade-casted PDMS surfaces, they were grafted with poly(N-isopropylacrylamide) (PNIPAAm), applying the Activators Regenerated by Electron Transfer – Atom Transfer Radical Polymerization (ARGET-ATRP) method. As the lower critical solution temperature (LCST) of the grafted PNIPAAm chains appeared to be 34°C, the copolymer films showed thermoresponsive, and PNIPAAm surface concentration-dependent wetting characteristics. The addition of 15 wt% visible light-active plasmonic Ag-TiO2 photocatalyst nanoparticles (dprimary ~50 nm) enriched the coatings with photocatalytic activity, which was also proven to be temperature-dependent during methylene-blue (MB; c0 = 6.25 mM) photodegradation tests (blue LED-light, λ = 405 nm) at the S/L-interface. Thanks to the real-time tunable wetting and photocatalytic properties, the presented coatings may offer a novel route towards sophisticated liquid manipulation.

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