Systematic design of unimolecular star copolymer micelles using molecular dynamics simulations

Huynh, Loan; Neale, Chris; Pomès, Régis; Allen, Christine

doi:10.1039/c001988g

Cited by 33 publications

(31 citation statements)

References 71 publications

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“…The iSAFT DFT predicts a depletion of surfactant tail at the center of micelle, which is also observed in molecular simulations. 48,49 The average density of hydrophobic segments (T4) in this inner core is approximately equal to the reduced bulk density (ρσ 3 = 0.6815) of an alkane built of four tail segments at the same temperature. The hydrophilic head segments are exposed to water molecules and fully hydrated.…”

Section: Determination Of the Cmcmentioning

confidence: 99%

Modeling micelle formation and interfacial properties with iSAFT classical density functional theory

Wang

Haghmoradi

Liu

et al. 2017

The Journal of Chemical Physics

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Surfactants reduce the interfacial tension between phases, making them an important additive in a number of industrial and commercial applications from enhanced oil recovery to personal care products (e.g., shampoo and detergents). To help obtain a better understanding of the dependence of surfactantproperties on molecular structure, a classical density functional theory, also known as interfacial statistical associating fluid theory, has been applied to study the effects of surfactant architecture on micelle formation and interfacial properties for model nonionic surfactant/water/oil systems. In this approach, hydrogen bonding is explicitly included. To minimize the free energy, the system minimizes interactions between hydrophobic components and hydrophilic components with water molecules hydrating the surfactant head group. The theory predicts micellar structure, effects of surfactant architecture on critical micelle concentration, aggregation number, and interfacial tension isotherm of surfactant/water systems in qualitative agreement with experimental data. Furthermore, this model is applied to study swollen micelles and reverse swollen micelles that are necessary to understand the formation of a middle-phase microemulsion.

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Section: Determination Of the Cmcmentioning

confidence: 99%

Modeling micelle formation and interfacial properties with iSAFT classical density functional theory

Wang

Haghmoradi

Liu

et al. 2017

The Journal of Chemical Physics

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“…In this contribution, we aim to corroborate the assumption of architectural influence on the complexing behavior by the use of molecular modeling and Monte Carlo (MC) simulations. Hitherto, simulations of star polymers include mainly homopolymers and block copolymers grafted to a center. Furthermore, the aggregation behavior was studied for miktoarm, A n B n , or ABC star polymers.…”

Section: Introductionmentioning

confidence: 99%

Effect of the Molecular Architecture on the Internal Complexation Behavior of Linear Copolymers and Miktoarm Star Polymers

Hebbeker

Plamper

Schneider

2015

Macro Theory & Simulations

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Star polymers with arms of two different homopolymers with a weak mutual attraction have been investigated using a coarse grained polymer model and Monte Carlo (MC) simulations. The effect of the polymer architecture on the complexation behavior has been studied for various numbers of arms (up to 8) starting from a diblock copolymer and compared to diblock copolymers as well as alternating linear copolymers. It was found that the star architecture promotes an internal complexation, which is indicated by a reduction of the end-to-end distance of the polymer chains. The local concentration of the weakly attractive partners is important to promote their interaction and to harvest the attraction. The results were compared to experimental data.

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“…To quantify the extent of asphericity of the ELPs, an asphericity index, A, was computed according to the approach described elsewhere. [ 56 ]

normalA = 1 - 3 ((), x^{2} y^{2} + y^{2} z^{2} + z^{2} x^{2}) / {(x^{2} + y^{2} + z^{2})}^{2}

where x , y , and z are the principal orthogonal moments of the gyration tensor. The asphericity index of a perfect sphere is 0 and increases up to 1 with increasing asphericity.…”

Section: Methodsmentioning

confidence: 99%

The evolutionary background and functional consequences of the rs2071307 polymorphism in human tropoelastin

Reichheld¹,

Muiznieks

Huynh³

et al. 2020

Biopolymers

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Elastin is a major polymeric protein of the extracellular matrix, providing critical properties of extensibility and elastic recoil. The rs2071307 genomic polymorphism, resulting in the substitution of a serine for a glycine residue in a VPG motif in tropoelastin, has an unusually high minor allele frequency in humans. A consequence of such allelic heterozygosity would be the presence of a heterogeneous elastin polymer in up to 50% of the population, a situation which appears to be unique to Homo sapiens. VPG motifs are extremely common in hydrophobic domains of tropoelastins and are the sites of transient β‐turns that are essential for maintaining the conformational flexibility required for its function as an entropic elastomer. Earlier data demonstrated that single amino acid substitutions in tropoelastin can have functional consequences for polymeric elastin, particularly when present in mixed polymers. Here, using NMR and molecular dynamics approaches, we show the rs2071307 polymorphism reduces local propensity for β‐turn formation, with a consequent increase in polypeptide hydration and an expansion of the conformational ensemble manifested as an increased hydrodynamic radius, radius of gyration and asphericity. Furthermore, this substitution affects functional properties of polymeric elastin, particularly in heterogeneous polymers mimicking allelic heterozygosity. We discuss whether such effects, together with the unusually high minor allele frequency of the polymorphism, could imply some some evolutionary advantage for the heterozygous state.

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Systematic design of unimolecular star copolymer micelles using molecular dynamics simulations

Cited by 33 publications

References 71 publications

Modeling micelle formation and interfacial properties with iSAFT classical density functional theory

Modeling micelle formation and interfacial properties with iSAFT classical density functional theory

Effect of the Molecular Architecture on the Internal Complexation Behavior of Linear Copolymers and Miktoarm Star Polymers

The evolutionary background and functional consequences of the rs2071307 polymorphism in human tropoelastin

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