Sharp and Fast: Sensors and Switches Based on Polymer Brushes with Adsorption-Active Minority Chains

Klushin, Leonid I.; Skvortsov, A.M.; Polotsky, Alexey A.; Qi, Shuanhu; Schmid, Friederike

doi:10.1103/physrevlett.113.068303

Cited by 56 publications

(84 citation statements)

References 22 publications

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“…The switching time is one major issue for the quality of sensors or other responsive materials. In our previous work [17], we performed overdamped Brownian dynamics simulations of a single switch chain in a static brush potential to estimate the switching time. By tracking the position of the free end bead of the minority chain, we found that this bead could jump between two well separated positions (which correspond to the exposed and adsorbed state, respectively) during a time about 10 6 τ mono , where τ mono is the characteristic relaxation time of a single monomer, which is typically on the order of 10 −9 seconds for flexible chains.…”

Section: Conclusion and Remarksmentioning

confidence: 99%

“…IV presents a more detailed derivation of the theory for the adsorption-active minority chain sketched in Ref. [17]. In Sec.…”

Section: Introductionmentioning

confidence: 99%

“…In a recent letter, we have proposed a new class of brush-based switches [17], which rely on a radical conformational change of individual adsorption-active minority chains in an otherwise inert brush.…”

Section: Introductionmentioning

confidence: 99%

“…[17] rely on several assumptions. First, the presence of the minority chains was taken to have no effect on the surrounding polymer brush.…”

Section: Introductionmentioning

confidence: 99%

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Stimuli-Responsive Brushes with Active Minority Components: Monte Carlo Study and Analytical Theory

Klushin

Skvortsov

et al. 2015

Macromolecules

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Using a combination of analytical theory, Monte Carlo simulations, and three dimensional selfconsistent field calculations, we study the equilibrium properties and the switching behavior of adsorption-active polymer chains included in a homopolymer brush. The switching transition is driven by a conformational change of a small fraction of minority chains, which are attracted by the substrate. Depending on the strength of the attractive interaction, the minority chains assume one of two states: An exposed state characterized by a stem-crown-like conformation, and an adsorbed state characterized by a flat two-dimensional structure. Comparing the Monte Carlo simulations, which use an Edwards-type Hamiltonian with density dependent interactions, with the predictions from self-consistent-field theory based on the same Hamiltonian, we find that thermal density fluctuations affect the system in two different ways. First, they renormalize the excluded volume interaction parameter v bare inside the brush. The properties of the brushes can be reproduced by self-consistent field theory if one replaces v bare by an effective parameter veff, where the ratio of second virial coefficients Beff/B bare depends on the range of monomer interactions, but not on the grafting density, the chain length, and v bare . Second, density fluctuations affect the conformations of chains at the brush surface and have a favorable effect on the characteristics of the switching transition: In the interesting regime where the transition is sharp, they reduce the free energy barrier between the two states significantly. The scaling behavior of various quantities is also analyzed and compared with analytical predictions.

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Section: Conclusion and Remarksmentioning

confidence: 99%

“…IV presents a more detailed derivation of the theory for the adsorption-active minority chain sketched in Ref. [17]. In Sec.…”

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

“…[17] rely on several assumptions. First, the presence of the minority chains was taken to have no effect on the surrounding polymer brush.…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Stimuli-Responsive Brushes with Active Minority Components: Monte Carlo Study and Analytical Theory

Klushin

Skvortsov

et al. 2015

Macromolecules

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“…Then, scientists are now turning increasingly interested in their vital roles in biological systems [5][6][7]. Apart from that, branched polymers offer a large number of free ends that may be functionalized, serving in nano-technical applications such as environment-responsive surface layers [8][9][10][11][12][13][14], or as antifouling barriers [15][16][17] on sensitive surfaces. When grafted onto colloids, they lead to an improved stability against coagulation, featuring a thinner polymeric layer than colloids decorated with linear chains [18].…”

Section: Introductionmentioning

confidence: 99%

Theoretical approaches to starlike polymer brushes in Θ-solvent

Merlitz

et al. 2016

Polymer

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A continuum-space mean-field model for brushes made of starlike polymers in Θ-solvent is developed. The model accounts for the segregation of molecules into two vertical layers and predicts the population fractions of these layers. It reproduces recently reported deviations of the brush heights from scaling theory at moderate and high grafting densities. In the regime of very low monomer densities, the scaling of its brush heights is crossing over to the classical scaling prediction. During our analysis, we modify the elastic properties of the molecules, as well as their volumetric interactions, in order to study the impact of these model parameters on the resulting brush properties. Comparisons with another, recently published mean-field model of brushes on a lattice and with molecular dynamic simulations are carried out. It is demonstrated that most variants of the mean-field models are generating brush heights in reasonable agreement with the simulation data. The partition of molecules into the two populations, however, exhibits a significant model dependence.

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Tuning Transition Properties of Stimuli‐Responsive Brushes by Polydispersity

Klushin

Skvortsov

et al. 2018

Adv Funct Materials

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A new design for sensors and switches based on polymer brushes including a small fraction of end‐grafted adsorption‐active minority chains has been proposed recently. The switching transition is controlled by temperature or solvent composition changes and is linked to a sharp change from a flattened adsorbed conformation to a stretched conformation. Two characteristics are most important for the switch performance: the sharpness of the transition affecting the switch sensitivity, and the response time. Herein, Monte Carlo simulations are used to study the effects of brush polydispersity on the main properties of the switching transition. The chain length distribution is taken to be of Schulz–Zimm type, and different values of the polydispersity index are considered. Contrary to intuitive expectations, polydispersity enhances the performance of the switch, in particular by reducing the activation barrier controlling the response time. Polydispersity also dramatically increases the robustness of the switch with respect to modifications of the adsorption‐active switch chains.

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Sharp and Fast: Sensors and Switches Based on Polymer Brushes with Adsorption-Active Minority Chains

Cited by 56 publications

References 22 publications

Stimuli-Responsive Brushes with Active Minority Components: Monte Carlo Study and Analytical Theory

Stimuli-Responsive Brushes with Active Minority Components: Monte Carlo Study and Analytical Theory

Theoretical approaches to starlike polymer brushes in Θ-solvent

Tuning Transition Properties of Stimuli‐Responsive Brushes by Polydispersity

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