Akademik Dersler - Tanıtım

Course Introduction Information


Code - Course Title	FİZ537 - Fundamentals of Impedance Spectroscopy
Course Type	Elective Courses
Language of Instruction	Türkçe
Laboratory + Practice	3+0
ECTS	7.5
Course Instructor(s)	DOÇENT ERTUĞRUL İZCİ
Mode of Delivery	Face to face, lectures, Demonstration, Problem Solving.
Prerequisites	No prerequisite
Courses Recomended	NO
Recommended Reading List	Barsoukov E.; Macdonald J. R. (2005) Impedance Spectroscopy Theory, Experiment, and Applications, Wiley Interscience,Hoboken, New Jersey, USA Orazem M. E.; Tribollet B. (2008) Electrochemical Impedance Spectroscopy, Wiley-Interscience, USA.Macdonald J. R.; Kenan W. R. (1987) Impedance Spectroscopy: Emphasizing Solid Materials and Systems, John Wiley & Sons Canada, Ltd
Assessment methods and criteria	Classic
Work Placement	No
Sustainability Development Goals

Content

Weeks	Topics
Week - 1	Basic definitions and history: a) The importance of interfaces b) The basic impedance spectroscopy experiment c) Impedance- related functions d) Early history
Week - 2	Elementary analysis of ımpedance spectra: a) Physical models for equivalent spectra b) Simple RC circuits c) Analysis of single impedance Arcs
Week - 3	Elementary analysis of ımpedance spectra (Continue) d) Differences between solid state and aqueous e) Selected applications of Impedance Spectroscopy (IS)
Week - 4	The electrical properties of bulk homogeneous phases a) Dielectric relaxation in materials with a single time constant b) Distributions of relaxation times c) Conductivity and diffusion in electrolytesiletkenlik
Week - 5	Electrical properties of bulk homogeneous phases (Continue): d) Conductivity and diffusion- a statistical description e) Migration in the absence of concentration gradients f) Transport in disordered media
Week - 6	Midterm
Week - 7	Mass and charge transport in the presence of concentration: a) Diffusion b) Mixed electronic- ionic conductors c) Concentration polarization
Week - 8	Interfaces and Boundary Conditions a) Reversible and irreversible interfaces b) Polarizable electrodes c) Adsorption at the electrode - Electrolyte Interface d) Charge transfer at the electrode - Electrolyte Interface
Week - 9	Tane sınır etkileri; akım dağılımları; gözenekli ve pütürlü elektrolitler; geometrik etki: a) Tane sınır etkileri b) Akım dağılım problemleri c) Gözenekli ve pütürlü elektrolitler
Week - 10	a) The modelling of Electrochemical systems b) Equivalent circuits
Week - 11	Midterm II
Week - 12	Modeling Results a) Introduction b) Supported Situations c) Unsupported Situations: Theoretical Models 2.2.3.4 Unsupported Situations: Equivalent Network Models c) Unsupported Situations: Empirical and Semiempirical Models D) Distributed Circuit Elements Ambiguous Circuits
Week - 13	Term Paper presentations:
Week - 14	Term Paper presentations:

Learning Activities and Teaching Methods

Teaching Methods
Lecture
Discussion
Question & Answer
Brain Storming
Competences
Productive
Questoning
Follow ethical and moral rules
Use time effectively
Problem solving
To work in interdisciplinary projects

Assessment Methods

Assessment Method and Passing Requirements
	Quamtity	Percentage (%)
Toplam (%)		0