INVESTIGATION OF ADSORPTION ABILITY OF DIAMINOMALEODINITRILE ON NICKEL SURFACE BY ELLIPSOMETRIC METHOD

Abstract

The difficulty of the discharge of nickel ions due to the adsorption of the addition of diaminomeleodinitrile on the electrode surface contributes to the formation of a fine crystalline precipitate with high reflectivity. Therefore, in this work, we studied the adsorption capacity of diaminomeleodinitrile on the surface of nickel from borate buffer solution in the cathodic and anodic regions. The values of its free adsorption energy were determined, which were at a potential of -0.65 V - 39.7 kJ / mol, and at 0.2 V - 66.2 kJ / mol. It was determined that diaminomeleodinitrile has adsorbed on the surface of nickel from borate buffer solution at pH = 7.4 mainly due to the forces of chemical interaction. It has been established that on the oxidized nickel surface, the adsorption of diaminomeleodinitrile begins in the region of lower concentrations compared to the “clean” surface. On average, a monolayer has formed within 60-75 min, while changes in the phase angle of the reflected light are small, due to the small size of the adsorbed molecule. It was determined that on the oxidized surface these changes are more than on the “clean” one. By method of reflective ellipsometry, which allows to measure and analyze the differences in the polarization parameters of a plane polarized light flux incident at an angle on two homogeneous media with different optical properties, the thickness of the resulting monolayer was determined. On an oxidized surface, it was ~ 0.5 nm, and on a “clean” surface, ~ 0.2 nm. When comparing these thicknesses with the size of the diaminomeleodinitrile molecule, it can be assumed that at a potential of 0.2 V, the diaminomeleodinitrile molecules are drawn out at an angle to the nickel surface, and at a potential of -0.65 V they are adsorbed flat on the nickel surface.