We utilize the self-consistent field theory to explore the mechanical and electrical properties of charged surfaces immersed in polyelectrolyte solutions that could be potentially useful for electrochemical applications. Our research focuses on how the dielectric heterogeneity of the solution could affect the disjoining pressure and differential capacitance of the electric double layer. Relying on the developed theoretical framework, based on the Noether's theorem, we calculate the stress tensor, containing the term, arising from the conformational entropy of the polymer chains. With its help we compute the disjoining pressure in polyelectrolyte solution confined between two parallel charged surfaces and analyze its behavior as a function o...
We have simulated interactions between charged surfaces in the presence of oppositely charged polyel...
Within a dipolar Poisson-Boltzmann theory including electrostatic correlations, we consider the effe...
The structuring of water at soft solid surfaces remains an area of great interest to colloid science...
In this Letter, we present a self-consistent field theory of macroscopic forces in spatially inhomog...
Dielectric interfaces are crucial to the behavior of charged membranes, from graphene to synthetic a...
Artificial nanopores functionalized with weak polyelectrolytes are an interesting and important clas...
Understanding the behavior of charged complex fluids is crucial for a plethora of important industri...
End-grafting of polyelectrolyte chains to conducting substrates offers an opportunity to fabricate e...
Understanding the effects of double layer formation on charged interfaces is integral in many discip...
We use a numerical implementation of polymer classical density functional theory with an incompressi...
We address the effects of chain connectivity on electrostatic fluctuations in polyelectrolyte soluti...
In this paper we perform molecular dynamics simulations of a spherical polyelectrolyte brush and cou...
We illustrate the effects of dielectric inhomogeneity on the statistical properties of polyelectroly...
Electrode surface roughness significantly impacts the structure of electric double layer on a molecu...
We characterize the role of electrostatic fluctuations on the charge selectivity of cylindrical nano...
We have simulated interactions between charged surfaces in the presence of oppositely charged polyel...
Within a dipolar Poisson-Boltzmann theory including electrostatic correlations, we consider the effe...
The structuring of water at soft solid surfaces remains an area of great interest to colloid science...
In this Letter, we present a self-consistent field theory of macroscopic forces in spatially inhomog...
Dielectric interfaces are crucial to the behavior of charged membranes, from graphene to synthetic a...
Artificial nanopores functionalized with weak polyelectrolytes are an interesting and important clas...
Understanding the behavior of charged complex fluids is crucial for a plethora of important industri...
End-grafting of polyelectrolyte chains to conducting substrates offers an opportunity to fabricate e...
Understanding the effects of double layer formation on charged interfaces is integral in many discip...
We use a numerical implementation of polymer classical density functional theory with an incompressi...
We address the effects of chain connectivity on electrostatic fluctuations in polyelectrolyte soluti...
In this paper we perform molecular dynamics simulations of a spherical polyelectrolyte brush and cou...
We illustrate the effects of dielectric inhomogeneity on the statistical properties of polyelectroly...
Electrode surface roughness significantly impacts the structure of electric double layer on a molecu...
We characterize the role of electrostatic fluctuations on the charge selectivity of cylindrical nano...
We have simulated interactions between charged surfaces in the presence of oppositely charged polyel...
Within a dipolar Poisson-Boltzmann theory including electrostatic correlations, we consider the effe...
The structuring of water at soft solid surfaces remains an area of great interest to colloid science...