Mechanism of Perchlorate Formation on Boron-Doped Diamond Film Anodes

Abstract: This research investigated the mechanism of perchlorate (ClO(4)(-)) formation from chlorate (ClO(3)(-)) on boron-doped diamond (BDD) film anodes by use of a rotating disk electrode reactor. Rates of ClO(4)(-) formation were determined as functions of the electrode potential (2.29-2.70 V/standard hydrogen electrode, SHE) and temperature (10-40 °C). At all applied potentials and a ClO(3)(-) concentration of 1 mM, ClO(4)(-) production rates were zeroth-order with respect to ClO(4)(-) concentration. Experimental a… Show more

“…1). A decrease in the current efficiency can also be explained by the formation of oxidants that are weaker than Å OH radicals such as, Cl 2 or HClO/ClO À and which participate in the organic matter oxidation; moreover, these chlorine species can possibly be transformed into chlorine oxospecies [37]. The transformation can be correlated with the chloride disappearance and the possibility of creating perchlorate and chloroorganics in our system.…”

Electrodegradation of ifosfamide and cyclophosphamide at BDD electrode: Decomposition pathway and its kinetics

“…1). A decrease in the current efficiency can also be explained by the formation of oxidants that are weaker than Å OH radicals such as, Cl 2 or HClO/ClO À and which participate in the organic matter oxidation; moreover, these chlorine species can possibly be transformed into chlorine oxospecies [37]. The transformation can be correlated with the chloride disappearance and the possibility of creating perchlorate and chloroorganics in our system.…”

Electrodegradation of ifosfamide and cyclophosphamide at BDD electrode: Decomposition pathway and its kinetics

“…Recent research has shown that high concentrations of ClO 3 − and ClO 4 − are formed during electrolysis of Cl − solutions when BDD anodes are used [1][2][3][4][5][6][7][8][9]. The relationship between experimental conditions and chlorine speciation has been studied in those works and the most important parameters affecting ClO 3 − and ClO 4 − formation were found to be the mass-transfer rate and the concentration of competitive ions [2,3,5].…”

Understanding active chlorine species production using boron doped diamond films with lower and higher sp3/sp2 ratio

“…HClO 4 [39] pharmaceuticals. This is the aim of proposing adequate operating conditions to limit the risk of formation of toxic by-products.…”

“…Since, for an electrical charge of 0. and OH [39]. The high concentration of electrogenerated oxygen species allows the reactions between the intermediate chlorine species and oxygen species to form ClO 4 À .…”

“…Using a BDD anode, besides direct electron transfer reactions, the electro-oxidation pathway of Cl À also includes the chemical oxidation reactions with hydroxyl radicals [33][34][35][36][37][38][39]. The possible pathway is exhibited in reaction scheme (6) listed in Table 1.…”

On the role of salts for the treatment of wastewaters containing pharmaceuticals by electrochemical oxidation using a boron doped diamond anode