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Solid-state polymer adsorption for surface modification: The role of molecular weight

Wenyang Xu, Karl Mihhels, Nikolay Kotov, Sakari Lepikko, Robin H. A. Ras, Claes Johnson, Torbjörn Pettersson, Eero Kontturi

2021Journal of Colloid and Interface Science15 citationsDOIOpen Access PDF

Abstract

HYPOTHESIS: Solid-state polymer adsorption offers a distinct approach for surface modification. These ultrathin, so-called Guiselin layers can easily be obtained by placing a polymer melt in contact with an interface, followed by a removal of the non-adsorbed layer with a good solvent. While the mechanism of formation has been well established for Guiselin layers, their stability, crucial from the perspective of materials applications, is not. The stability is a trade-off in the entropic penalty between cooperative detachment of the number of segments directly adsorbed on the substrate and consecutively pinned monomers. EXPERIMENTS: Experimental model systems of Guiselin layers of polystyrene (PS) on silicon wafers with native oxide layer on top were employed. The stability of the adsorbed layers was studied as a function of PS molecular weight and polydispersibility by various microscopic and spectroscopic tools as well as quasi-static contact angle measurements. FINDINGS: Adsorbed layers from low molecular weight PS were disrupted with typical spinodal decomposition patterns whereas high molecular weight (>500 kDa) PS resulted in stable, continuous layers. Moreover, we show that Guiselin layers offer an enticing way to modify a surface, as demonstrated by adsorbed PS that imparts a hydrophobic character to initially hydrophilic silicon wafers.

Topics & Concepts

AdsorptionPolystyrenePolymerSilicon oxideChemical engineeringWaferDewettingSiliconMaterials scienceLayer (electronics)MonomerSurface modificationContact angleOxideSubstrate (aquarium)Polymer chemistryChemical physicsChemistryNanotechnologyThin filmOrganic chemistryComposite materialSilicon nitrideOceanographyEngineeringGeologyPolymer Surface Interaction StudiesSurface Modification and SuperhydrophobicityNanofabrication and Lithography Techniques
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