L. V. Zherenkova scite author profile

We discuss the results of experimental studies of the processes of gelation in aqueous solutions of silver nitrate with l-cysteine and its derivatives. We focus on understanding what determines if these small molecules will self-assemble in water at their extremely low concentration to form a gel. A mechanism of gel formation in a cysteine-silver solution (CSS) is proposed. The analysis of the results indicates that filamentary aggregates of a gel network are formed via interaction of NH and C(O)O groups that belong to neighboring silver mercaptide (SM) aggregates. In turn, formation of sulphur-silver bonds between silver mercaptide molecules is responsible for self-assembling these molecules into SM aggregates which can be considered as supramonomers. Free polar groups located on the surfaces of the aggregates can form hydrogen bonds with water molecules, which explains the unique ability of CSS hydrogels to trap water at low concentrations of low-molecular-weight hydrogelators.

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Aggregation of colloidal particles induced by polymer chains: The RISM integral equation theory

Khalatur

Zherenkova

Khokhlov

1997

Physica A: Statistical Mechanics and its Applications

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Entropy-driven polymer collapse: Application of the hybrid MC/RISM method to the study of conformational transitions in macromolecules interacting with hard colloidal particles

1998

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Interaction of Colloidal Particles with Macromolecules: The RISM Integral Equation Theory

1997

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Self‐Consistent Integral Equation Theory for Semiflexible Polyelectrolytes in Poor Solvent

Zherenkova

Khalatur

Yoshikawa

2003

Macro Theory & Simulations

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Self‐consistent hybrid MC/PRISM method is presented for calculating properties of polyelectrolytes in semidilute and more concentrated regimes in a poor solvent. The static structure and conformational behavior of salt‐free polyelectrolyte solutions composed of semiflexible polyions and monovalent counterions are studied using the approach which combines the traditional Monte‐Carlo (MC) simulation with the numerical solution of the polymer integral PRISM equation. The MC technique is applied to generate the configurations of a single chain molecule and obtain the averaged intrapolymer correlation function. The PRISM equation is then numerically solved for a given monomer density to obtain the various correlation functions and the medium‐induced intrapolymer potential. This is used in a single chain MC simulation, where the polymer sites interact via the bare Coulomb potential together with the short range attractive potential and a self‐consistently determined medium‐induced potential. The monomer‐monomer pair correlation functions and static structure factors are calculated for a large variety of parameters. Conformational properties such as the radius of gyration and visual images are obtained as a function of attractive short‐range interaction, monomer density, Bjerrum length, and chain stiffness. The MC/PRISM study predicts that there is a range of hydrophobicity and monomer density for which polyion chains can form the toroidal structure in a poor solvent. Nonmonotonic dependence of the chain size on monomer density is predicted over the entire range of parameters. Polyion structure factor peak position as a function of density is described. Two concentration regimes in which the polyion structure factors exhibit physically different peaks were found. Over the entire concentration regime considered polyelectrolyte chains undergo strong compression with Rg ∝ l.Conformation of a polyion chain for lB = 2, ε = 0.18 at ρ* = 0.2 and α = 10°.imageConformation of a polyion chain for lB = 2, ε = 0.18 at ρ* = 0.2 and α = 10°.

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L. V. Zherenkova

Mechanism of gelation in low-concentration aqueous solutions of silver nitrate with l-cysteine and its derivatives

Aggregation of colloidal particles induced by polymer chains: The RISM integral equation theory

Entropy-driven polymer collapse: Application of the hybrid MC/RISM method to the study of conformational transitions in macromolecules interacting with hard colloidal particles

Interaction of Colloidal Particles with Macromolecules: The RISM Integral Equation Theory

Self‐Consistent Integral Equation Theory for Semiflexible Polyelectrolytes in Poor Solvent

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