2020
DOI: 10.3390/polym12071553
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Mixed Polymer Brushes for “Smart” Surfaces

Abstract: Mixed polymer brushes (MPBs) are composed of two or more disparate polymers covalently tethered to a substrate. The resulting phase segregated morphologies have been extensively studied as responsive “smart” materials, as they can be reversible tuned and switched by external stimuli. Both computational and experimental work has attempted to establish an understanding of the resulting nanostructures that vary as a function of many factors. This contribution highlights state-of-the-art MPBs studies, covering syn… Show more

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Cited by 57 publications
(60 citation statements)
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References 183 publications
(291 reference statements)
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“…As expected, the areas that were irradiated in the presence of EHA showed a higher water contact angle (65°) compared to those in the non‐irradiated areas (49–52°), which demonstrated the existence of PEHA polymer brushes on the 3D printed material. Although the secondary surface modification was performed with more hydrophilic monomers (DMAm), the underlying PEHA polymer brushes allowed the surface to retain its hydrophobicity [39e] . In addition, the surface functionalized 3D printed object exhibited fluorescence only in the areas that were irradiated in the presence of PyMMA/DMAm.…”
Section: Resultsmentioning
confidence: 99%
“…As expected, the areas that were irradiated in the presence of EHA showed a higher water contact angle (65°) compared to those in the non‐irradiated areas (49–52°), which demonstrated the existence of PEHA polymer brushes on the 3D printed material. Although the secondary surface modification was performed with more hydrophilic monomers (DMAm), the underlying PEHA polymer brushes allowed the surface to retain its hydrophobicity [39e] . In addition, the surface functionalized 3D printed object exhibited fluorescence only in the areas that were irradiated in the presence of PyMMA/DMAm.…”
Section: Resultsmentioning
confidence: 99%
“…The forces of Coulomb interaction between identical charges cause the chain segments to occupy the most distant position. As a result, the polymer molecule expands and becomes as large as possible, resulting in the stretching of the chains, blocking the flow through the pores of the membrane [59,60].…”
Section: Surface Modificationmentioning
confidence: 99%
“…These systems differ from linear polymers in a number of important physicochemical properties. In particular, the processes of self-organization in their solutions are the subject of intensive research [6][7][8][9][10][11][12].…”
Section: Introductionmentioning
confidence: 99%
“…Macromolecular brushes with different nature of the backbone and side chains are of special interest because they may adopt a wide variety of conformations in selective solvents [17][18][19]. Their solution behavior depends not only on the parameters of the architecture, primarily on the grafting density and the length of the side chains [6,12], but is influenced significantly by the different thermodynamic quality of the solvent with respect to the backbone and side chains. The ability of brushes to self-organize macromolecules in a selective solvent and the sensitivity of self-assembled structures to external factors provide wide possibilities for their use in various fields, such as catalysis and biotechnology.…”
Section: Introductionmentioning
confidence: 99%