Voltammetric behavior of copper(I)oxide modified carbon paste electrode in the presence of cysteine and ascorbic acid.

The electrochemical behavior of a copper(I)oxide (Cu(2)O) modified carbon paste electrode (MCPE) was investigated in different buffer solutions and in the presence of ascorbic acid (AA) and cysteine (RS). Working conditions such as pH, mineral oil, and modifier ratio were optimized. Voltammetric results revealed that RS forms rather stable complexes with Cu(I) which has a high electrocatalytic reduction peak current at -0.65V versus SCE in borate buffer (pH 9.2). In the case of AA, a complexation occurred with Cu(II) species at the electrode surface, rather than Cu(I). The electrocatalytic reduction peak current of the Cu(II)-AA complex was observed at -0.07V in phosphate buffer at pH 6.9. Linear responses were observed in the range 2.0x10(-9) to 3.0x10(-8)M with a 0.9954 correlation coefficient for RS and 1.0x10(-9) to 2.0x10(-8)M with a 0.9961 correlation coefficient for AA.