화학공학소재연구정보센터
로그인 로그아웃 연락처 사이트맵
Journal of Industrial and Engineering Chemistry, Vol.87, 18-39, July, 2020
DOI10.1016/j.jiec.2020.03.038  Export Citation
Service life and stability of electrodes applied in electrochemical advanced oxidation processes: A comprehensive review
Masoud Moradi1, Yasser Vasseghian1, †, Alireza Khataee2, 3, †, Mehmet Kobya2, Hossein Arabzade4, and Elena-Niculina Dragoi5
  • 1Research Center for Environmental Determinants of Health (RCEDH), Health Institute, Kermanshah University of Medical Sciences, Kermanshah, Iran
  • 2Department of Environmental Engineering, Gebze Technical University, 41400 Gebze, Turkey
  • 3Research Laboratory of Advanced Water and Wastewater Treatment Processes, Department of Applied Chemistry, Faculty of Chemistry, University of Tabriz, 51666-16471 Tabriz, Iran
  • 4Department of Environmental Health Engineering, School of Public Health, Iran University of Medical Sciences, Tehran, Iran
  • 5Faculty of Chemical Engineering and Environmental Protection “Cristofor Simionescu”, “Gheorghe Asachi” Technical University, Iasi, Bld Mangeron no 73, 700050, Romania
E-mail:,
In recent years, novel advanced oxidation processes (AOPs) based on electrochemical technology known as electrochemical advanced oxidation processes (EAOPs) have been applied to the degradation of a wide range of persistent organic pollutants (POPs). EAOPs produce in situ hydroxyl radicals (ㆍOH) capable of degrading POPs and their mineralization by producing stable electrode materials (e.g., boron-doped diamond (BDD), doped-SnO2, PbO2, and substoichiometric- and doped-TiO2). Moreover, ozone and sulfate radicals could be produced, based on electrolyte type, which cause the degradation of POPs. Although EAOPs are promising novel technologies, various parameters related to the types of electrodes in the POPs oxidation have not been fully addressed. In order to provide a full and comprehensive picture of the current state of the art, and improve the treatment efficiency and motivate new researches in these areas, this study analyzed the research covering EAOPs aspects, with a focus on the comparison of stability, lifetime and service life of electrodes. Electro-chemical stability and longer life are the major concerns in the EAOPs. Since electrodes must be highly efficient for long periods of time, the determination of their lifetime is essential. On the other hand, in real-life situations, lifetime determination is difficult. The oxidation ability and durability of electrodes during the reactions depended on the structural properties of them. Electrodes composed of intermediate compounds had a higher lifetime than binary oxides. Another factor affecting the stability of the electrodes was the structure of the expanded mesh style anodes to better control the bubble growth through a polygonized structure. Anodes with irregular shapes at the surface were more likely to discharge the bubbles and reduce the negative effects of the high pressure on the surface of the electrode. The electrodes having high oxidation strength and stability, had a shorter service life value. Furthermore, the calcination temperature and the amount of applied current directly affected the lifetime of the electrodes. On the other hand, the electrical resistance of the synthesized electrode was effective in the lifetime. Coating of electrodes with noble metals such as tantalum, titanium, niobium, zirconium, hafnium, vanadium, molybdate and tungsten improved the electrode stability.
Keywords:Electrochemical advanced oxidation;processes;Electrode;BDD;Stability;Lifetime;Service life
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