Molecular and intramolecular interactions in electrical double layer region

The DLVO (Derjaguin, Landau, Verwey, Overbeek) theory was originally developed to describe interactions between non-biological lyophobic colloids such as polystyrene particles, but is also used to describe bacterial adhesion to surfaces. Despite the differences between the surface of bacteria and th

The consrrqurnccs of 3ssignin\_r different size Stern layers to the anions and cations within a simple Debye-Hiickcl theory of the diffuse clcclrical double layer arc csmnined. Analytic cslmssions for fhc mean clcctrosttltic potential and salvation timcc brtwccn two char@ surfaces are obmined and fo

This article presents the results of molecular dynamic simulations of double layers developing on a flat mineral surface in aqueous sodium chloride solution. This part depicts the simulation results compared to classical double layer theory. Ion distribution, solvent orientation, and potential curve

The proximity effect of one or two flat surfaces on the doublelayer interaction between two identically charged colloidal particles immersed in an electrolyte is examined. Simple analytical formulas are presented for the interaction of (i) two particles in the vicinity of a charged flat surface and

Based on the well-known Debye-H ückel approximation and the Derjaguin's integration method, this paper presents an integral solution for the electrical double-layer (EDL) interaction between a spherical particle and a cylinder. The effects of the relative dimensions of the cylinder to the sphere on

Sum frequency generation (SFG) spectroscopy has been applied to study the electrochemical reduction of 4-(4-(diethylamino)styryl)-N-methylpyridinium iodide (D289) at the electrolyte-Si(111) interface. By employing electrically conductive Si(111) as the substrate and choosing the proper excitation sy