By surface organic synthesis a Fe(Ⅲ)tetra-o-aminophenyl porphyrin modified electrodewas successfully prepared on glassy carbon electrode surface through amidization.The preparativeconditions were investigated in detail.Using cyclic voltammetry and semidifferential neo-polarogra-phy in an acidic aqueous solution the behavior of the catalytic reduction ofoxygen on iron porphyriamodified electrode was studied.Based on experimental results it was shown that the irreversibleprocess of 2-electron-reduction to hydrogen peroxide belongs to EC parallel catalytic process. By surface organic synthesis a Fe (III) tetra-o-aminophenyl porphyrin modified electrodewas successfully prepared on glassy carbon electrode surface through amidization.The preparativeconditions were investigated in detail. Using cyclic voltammetry and semidifferential neo-polarogra-phy in an acidic aqueous solution the behavior of the catalytic reduction ofoxygen on iron porphyriamodified electrode was studied. Based on experimental results it was shown that the irreversible process of 2-electron-reduction to hydrogen peroxide belongs to EC parallel catalytic process.