Polymeric microstructures induced by freeze-drying process: Comparative study of PS41-PAA(271) morphologies after impregnations in water and in an alkaline solution

Horgnies, Matthieu
(2009) Journal of Materials Processing Technology — Vol. 209, n° 15-16, p. 5481-5486 (2009)

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  • Horgnies, MatthieuUCLouvain
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Abstract
Surface of polymeric coating can be modified after being submitted to treatment based oil freeze-drying. Morphology of polystyrene-b-poly(acrylic acid) (PS41 -PAA(271)) diblock copolymers was investigated by using scanning electron microscopy (SEM). After clip-coating oil stainless steel substrate, influences of the nature and the pH of the immersing liquid, used before freeze-drying, were established. If water has impregnated the polymer in order to form a hydrogel, the surface could acquire a cellular monolayer structure after freeze-drying while stretched polymeric nodules, affected by the conditions of sublimation, cover some other parts of the surface. The porous monolayer happens when freeze-drying occurs in a homogenous and well-crystallised icy material. Observations of nucleation sites linked by polymeric filaments could be considered as the first step of growth of this regular network. In the other hand, if a KOH alkaline Solution has impregnated the polymer before freeze-drying, ionic species affect the morphology by inducing specific lamellar structures that close the porous Structure. XPS analyses highlight that the carboxylic functions of PS-PAA coating could be deprotonated during the immersion in the alkaline solution. This deprotonation induces polyacrylate-based compounds that Could disturb the growth of the cellular polymeric network. This phenomenon Should be avoided by using a neutral immersing solution in order to obtain a homogenous and Porous monolayer of PS-PAA after freeze-drying. (C) 2009 Elsevier B.V. All rights reserved.
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Horgnies, M. (2009). Polymeric microstructures induced by freeze-drying process: Comparative study of PS41-PAA(271) morphologies after impregnations in water and in an alkaline solution. Journal of Materials Processing Technology, 209(15-16), 5481-5486. https://doi.org/10.1016/j.jmatprotec.2009.05.002 (Original work published 2009)