Anodic Copper Oxidation in Alkaline Mediums with α-Alanine and Asparagine Acid Additives

Abstract: It was investigated α-alanine and asparagine acid influence on copper anodic process kinetics in alkaline electrolytes. The experiments were carried out at two systems: I -0.01 M NaOH +X M α-Ala (X=10 -4 ÷10 -1 M) and II -0.01 M NaOH +X M Asp (X=10 -5 ÷10 -3 M). It was found out that α-alanine (from С Ala = 5×10 -3 М to 2×10 -2 М) and asparagine acid (from С Asp =1×10 -5 to 1×10 -3 М) stimulate anodic processes at passive region and cause of metal local activation. However except this general regularity, the i… Show more

“…The obtained results have shown that in both background solutions copper undergoes local activation (LA) [1,2]. Under this pits have the view of etch-pits of spherical shape form on metal surface and its number was few (2-3 at working surface 7.85×10 -5 m 2 ).…”

“…Under this pits have the view of etch-pits of spherical shape form on metal surface and its number was few (2-3 at working surface 7.85×10 -5 m 2 ). Earlier local depassivation process mechanism at chosen background electrolytes was examined in details at [1,2] and it was interpreted as a nucleophile substitution reaction of passivator particles by amino acid (AA) anions of dissociative type (S N1 ) [3]. Addition of small concentrations of NaCl (1×10 -7 -1×10 -4 M) stabilizes investigated systems.…”

Comparison of Copper Anodic Behavior under Joint Presence of α-Alanine or β-Alanine and Chloride Ions

“…The obtained results have shown that in both background solutions copper undergoes local activation (LA) [1,2]. Under this pits have the view of etch-pits of spherical shape form on metal surface and its number was few (2-3 at working surface 7.85×10 -5 m 2 ).…”

“…Under this pits have the view of etch-pits of spherical shape form on metal surface and its number was few (2-3 at working surface 7.85×10 -5 m 2 ). Earlier local depassivation process mechanism at chosen background electrolytes was examined in details at [1,2] and it was interpreted as a nucleophile substitution reaction of passivator particles by amino acid (AA) anions of dissociative type (S N1 ) [3]. Addition of small concentrations of NaCl (1×10 -7 -1×10 -4 M) stabilizes investigated systems.…”

Comparison of Copper Anodic Behavior under Joint Presence of α-Alanine or β-Alanine and Chloride Ions

Experimental and theoretical studies on electropolymerization of polar amino acids on platinum electrode