Learning Outcomes |
PO |
MME |
The students who succeeded in this course: |
|
|
LO-1 |
Can perceive basic electrochemical information and apply analysis techniques that are valid |
PO-9 Recognizes and explains the molecular biology and genetics of the problems of other disciplines
|
Examination |
LO-2 |
Can have knowledge to evaluate the obtained electrochemical data |
PO-9 Recognizes and explains the molecular biology and genetics of the problems of other disciplines PO-12 To be able to transfer current developments and own studies in the field with quantitative and qualitative data to the groups in the field and outside the field in a systematic manner in written, oral and visual form
|
Examination |
LO-3 |
Learns to detect molecular structures to electrochemical techniques |
PO-3 Ability to identify problems in Molecular Biology and genetics, to establish hypotheses for solving problems and to be able to solve hypothesis using various observational and experimental methods PO-6 Ability to independently carry out an activity that requires expertise in the field
|
Examination Laboratory Exam Presentation |
PO: Programme Outcomes MME:Method of measurement & Evaluation |
Course Contents |
Potential effect of current in electrolytic cells, potential of liquid contact, Nernst equation, cell potentials, standard electrode potentials (ohmic drop, polarity), ionic migration and conductivity in electrolytic solutions, transport counts, reference and metal indicator electrodes, membrane electrodes (Glass, Liquid and Crystalline) Potentiometric titrations, Electrogravimetry, Kulometry, Electrodes used for electrolysis, Supported electrolytes, Solvents, Working electrode types, Basic principles of electrochemical methods and comparison. |
Weekly Course Content |
Week |
Subject |
Learning Activities and Teaching Methods |
1 |
Introduction to electroanalytical chemistry |
Lecture and problem solving techniques |
2 |
Ion migration and conductivity in electrolyte solutions, transport numbers |
Lecture and problem solving techniques |
3 |
Reference and metal indicator electrodes, membrane electrodes (Glass, Liquid and Crystal electrodes) and theories |
Lecture and problem solving techniques |
4 |
Electrochemical cells |
Lecture and problem solving techniques |
5 |
Currents in electrochemical cells |
Lecture and problem solving techniques |
6 |
Standard electrode potential and cell potentials |
Lecture and problem solving techniques |
7 |
Nernst equation, liquid contact potential |
Lecture and problem solving techniques |
8 |
mid-term exam |
|
9 |
Current-potential relationship in electrolytic cells, ohmic drop, polarization effects |
Lecture and problem solving techniques |
10 |
Potentiometric titrations |
Lecture and problem solving techniques |
11 |
Electrogravimetry |
Lecture and problem solving techniques |
12 |
Coulometry |
Lecture and problem solving techniques |
13 |
Electrodes used for electrolysis, support electrolytes, solvents, working electrode types |
Lecture and problem solving techniques |
14 |
Basic principles of voltammetric methods and compariso |
Lecture and problem solving techniques |
15 |
Electrochemical sensors |
Lecture and problem solving techniques |
16 |
final exam |
|
Recommend Course Book / Supplementary Book/Reading |
1 |
Enstrumental analiz, D. A. Skoog, F.J. Holler ve T.A. Nieman V.Baskı. Türkçe çeviri (E. Kılıç) |
2 |
Electrochemical Methods (Fundamentals and Applications), A.J.Bard ve L.R. Faulkner 2. |
Required Course instruments and materials |
Projection |