Keyvan Raeissi k_raeissi@iut.ac.ir k_raeissi@yahoo.com Google Scholar Office Room #544, Department of Materials Engineering, Isfahan University of Technology, Isfahan 84156-83111, Iran Phone (+98) 31-3391-5724 Fax --- Positions Professor of Materials Engineering Research Interests - Electrocatalytic degradation - Anodic oxidation - Anodic & Cathodic deposition - Corrosion Keyvan Raeissi My weekly Schedule Resume type: Journal Title Conference / Journal Date Enhanced electrocatalytic performance of flame-sprayed CuO/SnO2-Sb composite coatings through nickel co-doping for the degradation of organic pollutants Surfaces and Interfaces 2026-01 Electrophoretically produced Sn(Sb)O?-?MnO? composite coatings with tunable composition for enhanced catalytic oxidation of organic pollutants Surfaces and Interfaces 2025-11 Comparative study of ?-MnO2 coatings fabricated by flame spray and electrodeposition for enhanced photo(electro)catalytic dye degradation INORGANIC CHEMISTRY COMMUNICATIONS 2025-10 Electrocatalytic performance of fluoride- and antimony-doped tin oxide coatings produced on titanium substrates using plasma electrolytic oxidation for the electrochemical degradation of organic contaminants in water Surfaces and Interfaces 2025-10 Fabrication of stable and durable F and Sb doped Ti/SnO2 electrodes for electrocatalytic phenol oxidation Journal of Water Process Engineering 2025-10 Influence of pulse frequency of plasma electrolytic oxidation on incorporation of CaO nanoparticles in the coating grown on AZ31 Mg alloy for biodegradable orthopedic implant applications JOURNAL OF ALLOYS AND COMPOUNDS 2025-09 Development of Functional Self-Healing, Highly Hydrophobic Epoxy Coatings Featuring Regenerative Calcium Stearate Nanostructures for Improved Corrosion Barrier Performance ACS Applied Engineering Materials 2025-08 The Effect of Hydrogen on Mechanical Properties of 7075-T6 Al at Elevated Temperatures for High-Duty Compressor Applications JOURNAL OF MATERIALS ENGINEERING AND PERFORMANCE 2025-05 Effect of heat treatment on microstructure and high-temperature oxidation behavior of flame-sprayed Ni-5 wt.% Al coating on low carbon steel Results in Surfaces and Interfaces 2025-05 A freestanding electrochemical sensor based on surface molecularly imprinted polydopamine for glucose detection Surfaces and Interfaces 2025-04