Role of surface heterogeneity in the chemical bond of MgO: ionic character of regular and defect surface sites

We have investigated the interaction of O~-with Mg 2+ ions at terraces, edges and comers and with the Fs centers of the MgO (100) surface by means of ab initio cluster model wavefunctions. While O 2 is unbound or weakly bound at surface cations, O~-is electrostatically bound with adsorption energies

Hydrogen bonding is generally thought to be an ubiquitous adsorption mechanism, which often foils selective adsorption schemes. Through investigation of hydrogen bonding energy and its dependence on surface molecular architecture, it may be possible to develop new methodologies to control the adsorp

## Abstract The pore character of packings for liquid chromatography, especially reversed‐phase (RPLC) packings, has been studied by means of the nitrogen adsorption method (BET method). Micro‐spherical silica gels with 9, 12, 30, 40 and 50 nm average pore diameter have been used as carriers. These

The potential energies for the collinear and perpendicular collision between the magnesium atom and the carbon dioxide molecule are studied with ab initio quantum chemical methods. Both the singlet and triplet surfaces are made with neutral and ionic (Mg+(C02)-) components. The singlet surface, diss

## Abstract In this article we study the effect of energetic heterogeneity of a crystalline surface on the adsorption of hydrogen ions (protons) from the liquid phase. In particular, we examine the influence of the shape of the adsorption energy distribution on the equilibrium isotherms of hydrogen