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  • Course Information
    • Course Title Code Semester Laboratory+Practice (Hour) Pool Type ECTS
    Advanced Electrochemistry KİM517 FALL-SPRING 3+0 University E 6
    Learning Outcomes
    1-Defines electrochemical concepts and Faraday`s laws.
    2-Summarizes the importance of electricity, electrolyte solutions and electrochemical methods.
    3-Interprets the importance of metal/solution interfaces.
    4-Interprets the importance of electrochemical electricity generators and accumulators.
    Prerequisites -
    Language of Instruction Turkish
    Responsible Associate Prof. Dr. Melike BİLGİ KAMAÇ
    Instructors

    1-)Doçent Dr. Melike Bilgi Kamaç
    Assistants -
    Resources R1- Bard, A.J., & Faulkner, L.R. (2001). Fundamentals and applications. Electrochemical methods, 2(482), 580-632. John Wiley & Sons, Inc. New York. R2- Brett, C. M., Brett, O., & Electrochemistry, A. M. (1993). Principles, methods and applications. Oxford University Press, New York.
    Supplementary Book -
    Goals It aims to learn about electrochemical concepts, electricity and electrolyte solutions, electrode kinetics, electrochemical methods, and electrochemical electricity generators.
    Content Static electricity and Faraday`s Laws, electrolyte solutions and thermodynamics of electrolyte solutions, electrolytic conductivity, diffusion, ionic balance, mass transports, kinetics in electrode reactions, electrocapillarity, electrochemical methods, electrophoretic events, metal/solution interfaces, thermodynamic approach to metal/solution interfaces, voltammetry, potentiostatic method, polarography, chronopotentiometry, electrochemical electricity generators, accumulators.
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