Articles

type: Journal
Title DOI Date
Surface Charge Regulation on the Concave Wall of a Spherical Silica Pore, Impact of the EDL Overlap, Potential Drop in the Stern Region, and Deviation from the Electroneutrality Principle 10.1021/acs.jpcc.4c00410
Modeling the Electric Double Layer at the Liposome Vesicle via Classical Density Functional Theory: Solution of Poisson's Equations for Curved Membranes 10.1021/acs.langmuir.3c03258
The impurity effect on the capacitance of ionic liquid-based supercapacitors: A classical density functional theory study of ionic liquids inside the spherical cavity of the porous electrode 10.1016/j.electacta.2023.143012
Effect of solvent on electric double layer capacitance and over screening inside spherical cavity by density functional theory 10.1016/j.molliq.2023.122080
Exploring the electrosorption and surface charge amplification at the ionic liquid/cavity interface: Influence of imidazolium alkyl chain length and the size of the spherical cavities of the porous electrode 10.1016/j.electacta.2023.142314
Influence of cation shape asymmetry on the interfacial features and capacitance curve of ionic liquids inside the spherical cavity of the porous electrode as an ionic liquid-based supercapacitor 10.1016/j.electacta.2022.140832
The Effect of Stern Layer Thickness on the Diffuse Capacitance for Size Asymmetric Electrolyte inside the Charged Spherical Cavities by Density Functional Theory #
Effects of a tiny particle trapped in a spherical cavity on fluid structure, contact density, and capillary condensation (a DFT approach) #
Ionic Competition over Adsorption into Charged Spherical Cavities Affecting the Shape of Electric Double Layer Capacitance Curve and Zeta Potential: A Density Functional Theory Study #
A new regularity used to predict the camel?bell shape transition in the capacitance curve of electric double layer capacitors #
Diffuse and Stern capacitances at the concave wall of spherical cavities by density functional theory #
The effect of electro-neutrality violation inside a charged spherical cavityon the capacitance curve shape in DFT approach and interpretation ofmean electrostatic potential #
Effects of bispherical nanopore concavo-convex walls on fluid structure tangential and normal pressure components and the validity of wellestablished bulk regularities a DFT approach #
Ion selectivity by charged spherical cavities and investigation of intersection point for average cavity density versus electric potential (a DFT study) #
Curvature dependence of the camel-bell curve transition on the capacitance curve of spherical electric double-layer in porous electrodes: Density Functional Theory #
Normal and tangential components of pressure tensor in spherical cavities; an investigation of certain well-known bulk fluid regularities #
Evaluation of the static electric field effects on freezing parameters of some food systems #
Nanopipet and truncated cone pores; influence of the cone size and density on fluid structure and adsorption: DFT approach #
Effects of fluid structure on wall pressure interfacial tension and surface adsorption at a spherical guest particle #
Investigation of alumina nanofluid stability using experimental and modified population balance methods 10.1016/j.apt.2016.08.003