Hydrophobic Interaction of the Water-Soluble ABA-Type Block Copolymer Composed of 2-Hydroxyethyl Methacrylate and Ethylene Oxide and Its Conformational Transition

Ikemi, Masahisa; Odagiri, Nobuyuki; Shinohara, Isao

doi:10.1295/polymj.12.777

Cited by 6 publications

(3 citation statements)

References 15 publications

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“…The positive value of AAH ~ for incorporation of the Ru(NH3)6 ~+/~+ couple by polyelectrolyte II (Table III) represents the net result of a variety of coulombic and dipolar interactions whose individual contribution to the measured values of AAH~gs ~ it would be extremely difficult to disentangle. However, it may be worth noting that the behavior we have observed is similar to that reported for the incorporation from aqueous solution of an organic sulfonate (8-anilino-1-naphthalene sulfonate) by the hydrophobic portion of a block copolymer of polyethylene oxide and poly(2hydroxyethyl methacrylate) (20). The incorporation, which is free of direct electrostatic binding between fixed charge groups and the incorporating ions, is also governed by a positive entropy change that overcomes a corresponding increase in enthalpy.…”

Section: Discussionsupporting

confidence: 83%

“…However, it may be worth noting that the behavior we have observed is similar to that reported for the incorporation from aqueous solution of an organic sulfonate (8-anilino-1-naphthalene sulfonate) by the hydrophobic portion of a block copolymer of polyethylene oxide and poly(2-hydroxyethyl methacrylate) (20). The incorporation, which is free of direct electrostatic binding between fixed charge groups and the incorporating ions, is also governed by a positive entropy change that overcomes a corresponding increase in enthalpy.…”

Section: Discussionsupporting

confidence: 83%

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Shifts in Redox Formal Potentials Accompanying the Incorporation of Cationic Complexes in Perfluoro Polycarboxylate and Polysulfonate Coatings on Graphite Electrodes

Tsou

Anson

1984

J. Electrochem. Soc.

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The formal potentials of several redox couples incorporated in coatings of a perfluoropolycarboxylate on graphite electrodes were measured and compared with the formal potentials of the same couples in homogeneous solution. The differences observed agreed with those calculated from the Nernst equation with the independently measured incorporation coefficients for both halves of the redox couples. The dependences of the shifts in formal potentials on the nature of the incorporating complex ion, the ionic strength, and the temperature were determined and indicated that the incorporation equilibrium is governed by electrostatic and hydrophobic interactions that act in opposite directions. The incorporation of most cation s examined was driven by large increases in entropy which overcame the usually unfavorable enthalpy changes.Redox reactants incorporated in polyelectrolyte coatings on electrode surfaces will exhibit formal potentials that are shifted from their values in solution whenever the two oxidation states of the reactant have different equilibrium constants for incorporation by the polyelectrolyte. This situation has been recognized in earlier reports (1, 2) .and in a recent study this aspect of the electrochemistry of redox polymer coatings was examined in detail (3). In continuing studies of the electrochemical responses obtained from redox reactants at electrodes coated with Nation, I, and the re- coatings. Both the magnitude of the shift in formal potential and its sign were influenced strongly by the nature of the ligands coordinated to the metal center of the redox couples. It was the purpose of the experiments described here to document the behavioral differences observed with several redox couples in both polyelectrolytes and to attempt to understand their origins. The results indicate that both electrostatic and hydrophobic interactions of incorporated electroactive ions with the polyelectrolyte combine to determine the direction of shifts in formal potentials. The temperature dependences of the shifts in formal potential were also measured. They pointed to large entropic contributions to the differences in the equilibrium incorporation of the oxidized and reduced halves of the redox couples. ExperimentalMaterials.--Nafion I coatings were prepared as previously described (4) by evaporation of aliquots of a solution of the polymer supplied by E. I. du Pont de Nemours and Company several years ago. Polymer II was supplied in the form of a fine suspension of the methyl ester by Asahi Glass Company, Tokyo. To prepare coatings, aliquots of the suspension were evaporated on freshly cleaved electrodes. The resulting deposit was exposed to 1M NaOH for 5 min to convert the ester to the carboxylate, and the electrode was then washed thoroughly with water. The extent and uniformity of the de-esterification were not examined in detail, but it was established that increasing the time that the coatings were exposed to the 1M NaOH produced no changes in their behavior. Electrodes were prepared from pyrol...

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Section: Discussionsupporting

confidence: 83%

Section: Discussionsupporting

confidence: 83%

Shifts in Redox Formal Potentials Accompanying the Incorporation of Cationic Complexes in Perfluoro Polycarboxylate and Polysulfonate Coatings on Graphite Electrodes

Tsou

Anson

1984

J. Electrochem. Soc.

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“…However, it is known that in the crystalline state iPS adopts a threefold helical conformation, with a repeat distance of 6.6 Á along the chain, and that this helical character is substantially maintained in good solvents. 4 Keller et al5,6 reported a new X-ray diffraction pattern from gels of iPS prepared from irons-decalin. The characteristic features were a meridional reflection of 5.1-Á spacing and a layer line distance of 30.6 Á.…”

Section: Solvent-dependent Conformations In Gels Of Isotactic Polysty...mentioning

confidence: 99%

Hydrophobic domain structure of water-soluble block copolymer. 2. Transition phenomena of block copolymer micelles

Ikemi¹,

Odagiri²,

Tanaka³

et al. 1982

Macromolecules

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Micelle formation and the hydrophobic domain structure of a water-soluble ABA-type block copolymer of hydrophobic poly(2-hydroxyethyl methacrylate) (PHEMA) and hydrophilic polyethylene oxide) (PEO) were investigated by means of small-angle X-ray scattering and a fluorometric analysis using fluorescent dyes as probes for the hydrophobic region. The emission Xm"T of a fluorescent dye added to a block copolymer solution exhibits a distinct two-step blue shift with an increase in polymer concentration. The concentration at which the second transition takes place is consistent with the critical concentration for the intermolecular association determined from light scattering. The first transition in the emission Xmax indicates that the hydrophobic domain of the contracted PHEMA chain was formed within a molecule, suggesting the formation of a monomolecular micelle. Subsequent intermolecular association through PHEMA chains appears to bring about further aggregation of PHEMA chains within the hydrophobic domain. The fluorescence spectra exhibit a remarkable temperature dependence and the emission Xm" was shifted toward shorter wavelength on lowering the temperature in both the monomolecular and polymolecular micelles. As for the polymolecular micelle, X-ray scattering data reveal that a considerable extent of the intermixing phase exists in the interfacial region between the core and the shell and also that the width of the intermixing phase decreases with a lowering of the temperature. This suggests that a demixing of the constituent blocks results in an enhancement of the hydrophobicity of the PHEMA chains within the core of the micelle. The state of the PHEMA chains in the intermixing phase is discussed.

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Sustained release of proteins from contact lenses with porous annulus

Sparks,

Chauhan

2024

Drug Deliv. and Transl. Res.

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Hydrophobic Interaction of the Water-Soluble ABA-Type Block Copolymer Composed of 2-Hydroxyethyl Methacrylate and Ethylene Oxide and Its Conformational Transition

Cited by 6 publications

References 15 publications

Shifts in Redox Formal Potentials Accompanying the Incorporation of Cationic Complexes in Perfluoro Polycarboxylate and Polysulfonate Coatings on Graphite Electrodes

Shifts in Redox Formal Potentials Accompanying the Incorporation of Cationic Complexes in Perfluoro Polycarboxylate and Polysulfonate Coatings on Graphite Electrodes

Hydrophobic domain structure of water-soluble block copolymer. 2. Transition phenomena of block copolymer micelles

Sustained release of proteins from contact lenses with porous annulus

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