Polymer brushes here, there, and everywhere: Recent advances in their practical applications and emerging opportunities in multiple research fields

Azzaroni, Omar

doi:10.1002/pola.26119

Cited by 367 publications

(348 citation statements)

References 266 publications

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“…At lower grafting densities the "mushroom regime" is defined. Termed "polymer brushes", these materials have an assortment of applications and particularly, the ability to alter surface properties including bio-adhesion [1], wettability [2], modulating interfacial electronic properties [3], and surface activity [4]. Often these properties are classified under the broader term of "responsive surfaces" [5].…”

Section: Introductionmentioning

confidence: 99%

From Self-Assembled Monolayers to Coatings: Advances in the Synthesis and Nanobio Applications of Polymer Brushes

et al. 2015

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Abstract:In this review, we describe the latest advances in synthesis, characterization, and applications of polymer brushes. Synthetic advances towards well-defined polymer brushes, which meet criteria such as: (i) Efficient and fast grafting, (ii) Applicability on a wide range of substrates; and (iii) Precise control of surface initiator concentration and hence, chain density are discussed. On the characterization end advances in methods for the determination of relevant physical parameters such as surface initiator concentration and grafting density are discussed. The impact of these advances specifically in emerging fields of nano-and bio-technology where interfacial properties such as surface energies are controlled to create nanopatterned polymer brushes and their implications in mediating with biological systems is discussed.

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Section: Introductionmentioning

confidence: 99%

From Self-Assembled Monolayers to Coatings: Advances in the Synthesis and Nanobio Applications of Polymer Brushes

et al. 2015

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“…They are also used as coatings in "smart surfaces" to fine tune reversibly some property of an interface upon changes in external stimuli, for example, PH [5], temperature, solvent quality [6,7]. Brushes are at the forefront of recent developments, ranging from responsive bio-interphases, controlled drug-delivery and release systems, thin films and particles, which act as sensors of minute amounts of analytes [3,6]. The geometry and curvature of the grafted surface contribute also to distinctive properties of brushes, which can be grown in planar or cylindrical geometries, in the surface of nanoparticles or into the backbone of macromolecules (bottle-brushes) [1,8].…”

Section: Introductionmentioning

confidence: 99%

“…Polymer brushes are enormously versatile systems, whose properties can be tailored chemically and physically [1][2][3]. They were studied with great interest due to their technological significance, biophysical importance and theoretical subtleties and complexity.…”

Section: Introductionmentioning

confidence: 99%

Brushes of semiflexible polymers in equilibrium and under flow in a super-hydrophobic regime

Speyer

Pastorino

2015

Soft Matter

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We performed molecular dynamics simulations to study equilibrium and flow properties of a liquid in a nano-channel with confining surfaces coated with a layer of grafted semiflexible polymers. The coverage spans a wide range of grafting densities from essentially isolated chains to dense brushes. The end-grafted polymers were described by a bead spring model with an harmonic potential to include the bond stiffness of the chains. We varied the rigidity of the chains, from fully flexible polymers to rigid rods, in which the configurational entropy of the chains is negligible. The brushliquid interaction was tuned to obtain a super-hydrophobic channel, in which the liquid did not penetrate the polymer brush, giving rise to a Cassie-Baxter state. Equilibrium properties such us brush height and bending energy were measured, varying the grafting density and the stiffness of the polymers. We studied also the characteristics of the brush-liquid interface and the morphology of the polymers chains supporting the liquid for different bending rigidities. Non-equilibrium simulations were performed, moving the walls of the channel in opposite directions at constant speed, obtaining a Couette velocity profile in the bulk liquid. The molecular degrees of freedom of the polymers were studied as a function of the Weissenberg number. Also, the violation of the no-slip boundary condition and the slip properties were analyzed as a function of the shear rate, grafting density and bending stiffness. At high grafting densities, a finite slip length independent of the shear rate or bending constant was found, while at low grafting densities a very interesting non-monotonic behaviour on the bending constant is observed.

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“…Successful examples of such approach include, but are not limited to, self-cleaning surfaces, microfluidic devices, sensors and actuators. [3][4][5][6][7][8] Progresses in surface-initiated polymerization (SIP) made the production of patterned polymer brushes a straightforward process in which a pre-patterned initiator monolayer, grafted on the surface, is amplified from a two-dimensional (2D) pattern into a three-dimensional (3D) brush structure by SIP. 9 Such approach is called "grafting-from", as opposed to "grafting-to" which relies on the attachment of pre-made polymer chains, and is nowadays the election method to obtain polymer brushes.…”

Section: Introductionmentioning

confidence: 99%

Crafting positive/negative patterns and nanopillars of polymer brushes by photocatalytic lithography

Panzarasa

Soliveri

Ardizzone

2016

Colloids and Surfaces A: Physicochemical and Engineering Aspect

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HIGHLIGHTSPhotocatalytic lithography is demonstrated as an efficient and versatile patterning strategy.Both positive and negative patterns of polymer brushes are obtained using direct photocatalytic lithography.Nanosphere lithography coupled to remote photocatalysis allows to achieve polymer pillars patterns with nanoscale size. KEYWORDSPolymer brushes, Titanium dioxide, Photocatalytic lithography, Patterning, Nanosphere lithography, Nanopillars, SI-ATRP GRAPHICAL ABSTRACT ABSTRACT We demonstrate how micro-and nanostructures of polymer brushes can be prepared using photocatalytic lithography as a convenient and versatile approach. Both positive and negative micro-patterns of polymer brushes are obtained by patterning self-assembled monolayers through direct photocatalytic lithography. Such approach mimics conventional photolithography but is free from the disadvantages associated to the use of polymeric resists. Moreover, for the first time, the ability to generate nanometer-sized pillars of polymer brushes using remote photocatalysis coupled with nanosphere lithography is demonstrated. Our results confirm the great potentialities of photocatalytic lithography for efficient patterning of polymer brushes.

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Polymer brushes here, there, and everywhere: Recent advances in their practical applications and emerging opportunities in multiple research fields

Cited by 367 publications

References 266 publications

From Self-Assembled Monolayers to Coatings: Advances in the Synthesis and Nanobio Applications of Polymer Brushes

From Self-Assembled Monolayers to Coatings: Advances in the Synthesis and Nanobio Applications of Polymer Brushes

Brushes of semiflexible polymers in equilibrium and under flow in a super-hydrophobic regime

Crafting positive/negative patterns and nanopillars of polymer brushes by photocatalytic lithography

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