COURSE SYLLABUS

POTENTIOMETRY IN ANALYTICAL CHEMISTRY

1	Course Title:	POTENTIOMETRY IN ANALYTICAL CHEMISTRY
2	Course Code:	KIM5011
3	Type of Course:	Optional
4	Level of Course:	Second Cycle
5	Year of Study:	1
6	Semester:	1
7	ECTS Credits Allocated:	6
8	Theoretical (hour/week):	3
9	Practice (hour/week) :	0
10	Laboratory (hour/week) :	0
11	Prerequisites:	-
12	Recommended optional programme components:	None
13	Language:	Turkish
14	Mode of Delivery:	Face to face
15	Course Coordinator:	Prof. Dr. MEHMET HALUK TÜRKDEMİR
16	Course Lecturers:	-
17	Contactinformation of the Course Coordinator:	e-mail: hturkdemir@uludag.edu.tr Tlf : 0224 29 41 741
18	Website:
19	Objective of the Course:	As well as in a laboratory environment, operating principles of various potentiometric sensors using for follow up process and monitoring and to provide basic information about their use.
20	Contribution of the Course to Professional Development

Learning Outcomes:

1	Understand the formation and structure of the electrode potential.;
2	Know what need to measure the electrode potential.;
3	Know the relationship among activity, activity coefficient, concentration and potential.;
4	Comprehend the intended use, potentiometric sensor structures such as ISE, pH and enzymatic sensor.;
5	Interpret results of potentiometric analysis.;
6	Comprehend importance of pH and ORP measurement in areas such as chemistry, environment engineering and chemical engineering. Knows in detail.;

22	Course Content:

Week	Theoretical	Practical
1	Knowledge of basic electrochemistry, formation of the electrode potential , the Fermi energy
2	Activity / concentration relationship, Nernst equation and the meaning of it, standard and formal potentials
3	Measurement of the electrode potential, reference electrodes, structures, potential values
4	Measurement of the electrode potential, potentiometer, compensation methods
5	Quantities affecting the electrode potential, emf, the importance of the occurrence of the i = 0 during measuring, polarization
6	Potentiometric measurement types, preparation of calibration graph, principles of titration and standard addition
7	Potentiometric measurement electrodes, pH electrodes, types, pH electrode selection criteria, pH measurement
8	Ion Selective Electrodes, types, classification, internal structure and measurement principles.
9	Gas measurement electrodes
10	General reminders, description of unifying concepts and Midterm
11	Potentiometric biosensors, in vivo applications
12	Potentiometric titration applications
13	ISE and analytical applications
14	Case studies and calculations

23	Textbooks, References and/or Other Materials:	1. Martin Telting-Diaz and Yu Qin. Potentiometry Comprehensive Analytical Chemistry 47, 2006 Elsevier 2. D. Midgley and K. Torrence. Potentiometric Water Analysis, John Wiley and Sons. 3. Karl Cammann. Working with Ion-Selective Electrodes, Springer-Verlag
24	Assesment

TERM LEARNING ACTIVITIES	NUMBER	PERCENT
Midterm Exam	1	30
Quiz	0	0
Homeworks, Performances	1	10
Final Exam	1	60
Total	3	100
Contribution of Term (Year) Learning Activities to Success Grade		40
Contribution of Final Exam to Success Grade		60
Total		100
Measurement and Evaluation Techniques Used in the Course
Information	The weights of the activities can vary within regulations.

ECTS / WORK LOAD TABLE

CONTRIBUTION OF LEARNING OUTCOMES TO PROGRAMME QUALIFICATIONS

LO: Learning Objectives

PQ: Program Qualifications

Contribution Level:

1 Very Low

2 Low

3 Medium

4 High

5 Very High