Second Cycle Programmes    (Master's Degree)
Master (with thesis) - Institute for Graduate Studies in Pure and Applied Sciences - Chemistry - Physical Chemistry
General Description  |  Key Learning Outcomes  |  Course Structure Diagram with Credits
General Description ^
History
Physical Chemistry Program was established in fall semester of 1988-1989 academic year. During this period, Prof. Dr. Mustafa Lütfi Berkem was appointed as the first ‘chair of the program. . After Prof. Dr. Yurdun Fırat became the program chair, replacing with Prof. Dr. Mustafa Lütfi Berkem. Current program chair is Prof. Dr. Mustafa Lütfi Berkem. There are three proffesors and one assistant proffesor in Physical Chemistry Program. Education Language is Turkish.
Qualification Awarded
M. Sc. degree in physical chemistry
Specific Admission Requirements
Applicants; must have a B. Sc. degree and must take at least 60 points out of 100 from the Academic Personnel and Graduate Education Entrance Examination(ALES) organized by Higher Education Council Student Selection and Placement Center(ÖSYM). Please check the website of the institute for further details and recent changes. http://fbe.marmara.edu.tr/
Specific Arrangements For Recognition Of Prior Learning (Formal, Non-Formal and Informal)
The program is open for all the scientific areas related to physical chemistry and all students who have a B.Sc. degree in biology, physics, chemistry, chemical engineering, environmental engineering, food engineering and materials engineering.
Qualification Requirements and Regulations
http://llp.marmara.edu.tr/regulations.pdf
Profile of The Programme
Program is composed of two parts: Lectures and Master Thesis. Lectures include detailed topics related to physical chemistry: advanced physical chemistry, advanced electrochemistry, statistical thermodynamics, polymer chemistry, quantum chemistry, advanced chemical kineti, special topics in physical chemistry, source investigation, report writing etc.
Occupational Profiles of Graduates With Examples
Graduates can continue their academic career or they can find positions in the quality control, research and development or production departments of medicine, plastics, paint, food and agriculture industries.
Access to Further Studies
Graduates of Master of Physical Chemistry may apply to doctoral programs which are compatible with the field of Physical Chemistry and other scientific areas. If they are successful they are accepted to the doctoral programs.
Examination Regulations, Assessment and Grading
The passing achievement grade of each course should be minimum 65/100. In the calculation of final achievement grade of course, raitos of the grades obtained from the mid-term(s) and final examinations are taken as 50% of each. The grade (S) and grade (U) are used for the Seminar Courrse and Master's Thesis. The grade (S) is given to students who are successful and the grade (U) is given to students who are not successful. The student's standing is calculated in the forms of a GPA and a CGPA and anounced at the end of each semester by the Registirar's Office. The total score obtained by the student in a particular education period is calculated by the summing up individual scores which are obtained via the multiplicaiton of the final achievement grade by the credit of the course. In order to obtain the GPA for any given semester, the total score earned in that semester is divided by the sum of credits. The CGPA is calculated by taking into account all the courses taken by a student starting from her/his registration.
Graduation Requirements
Students must successfully complete at least 21 credit hours of lessons and non-credit Seminar and also prepare and successfully defend a M. Sc. thesis. 9 hours of the 21 credit hours must be taken from the core lessons. Students must give a seminar about their thesis. Also every semester during the thesis studies, students must pass the non-credit theoretical courses.
Mode of Study (Full-Time, Part-Time, E-Learning )
Full-Time
Address, Programme Director or Equivalent
Prof. Dr. Mustafa L. BERKEM (Head of Physical chemistry) Marmara Üniversitesi Göztepe Kampüsü Fen-Edebiyat Fakültesi Kimya Bölümü 34722 Göztepe-İstanbul Tel: 00 90 216 346 45 53 / 1502 e-mail: mlberkem@marmara.edu.tr
Facilities
The facilities of chemistry Department are available for all graduate students of Physical Chemistry Program. Qualified students of the program are equipped with research laboratories that include the following instrumentations: Cyclic voltameter, UV spectrophotometer.
Key Learning Outcomes ^
1 Gain a graduate level of understanding in physical chemistry.
2 Improve the undergraduate knowledge and skills in chemistry and interdisciplinary sciences.
3 Have sufficient level of knowledge in a common Europian language in order to read, understand, and translate scientific articles.
4 Acquire the basic tools needed to formulate a research proposal, to carry out a chemical research, to write the results and publish them.
5 Communicate scientific results in written and oral presentations.
6 Become aware of professional ethics and responsibility.
7 Analyze and solve problems, understand relationships and interpret scientific facts and data.
8 Demonstrate proficiency in using computers to solve problems in chemistry.
9 Gain suffiency for doctorate education.
10 Gain ability to work well in team based research.
Course Structure Diagram with Credits ^
T : Theoretical P: Practice
No Course Unit Code Course Unit Title Type of Course T P ECTS
1 KMYF-S1..4-YL Elective - 1..4 Elective 12 0 32
Total 12 0 32
No Course Unit Code Course Unit Title Type of Course T P ECTS
1 KMYF700 Seminar Compulsory 0 2 4
2 KMYF-S5,6,7-YL Elective - 5-6-7 Elective 9 0 24
Total 9 2 28
No Course Unit Code Course Unit Title Type of Course T P ECTS
1 Thesis Compulsory 60
Elective
1 . Semester > KMYF-S1..4-YL Elective - 1..4
No Course Unit Code Course Unit Title Type of Course T P ECTS
1 KMYA809 İleri İstatistiksel Yöntemler Compulsory 3 0 8
2 KMYF701 İleri Fizikokimya I Compulsory 3 0 8
3 KMYF702 İleri Fizikokimya II Compulsory 3 0 8
4 KMYF703 İleri Elektrokimya I Compulsory 3 0 8
5 KMYF704 İleri Elektrokimya II Compulsory 3 0 8
6 KMYF705 Polymer Chemistry I Compulsory 3 0 8
7 KMYF706 Polymer Chemistry II Compulsory 3 0 8
8 KMYF709 Termal Analiz Compulsory 3 0 8
9 KMYF710 İleri Faz Dengesi Compulsory 3 0 8
10 KMYF711 Kuantum Kimyası I Compulsory 3 0 8
11 KMYF712 Kuantum Kimyası II Compulsory 3 0 8
12 KMYF713 Fizikokimyada Özel Konular I Compulsory 3 0 8
13 KMYF714 Fizikokimyada Özel Konular II Compulsory 3 0 8
14 KMYF715 Zayıf Asit-Bazların Termodinamik Asit Sabitlerinin Tayini Compulsory 3 0 8
15 KMYF716 İleri Elektrokimyasal Yöntemler ve Uygulamaları I Compulsory 3 0 8
16 KMYF717 İleri Elektrokimyasal Yöntemler ve Uygulamaları II Compulsory 3 0 8
17 KMYF719 Biyoelektrokimya Compulsory 3 0 8
18 KMYF722 Katı Elektrolitler ve Uygulamaları Compulsory 3 0 8
19 KMYF724 Elektrokimya ve Enerji Compulsory 3 0 8
20 KMYF725 Elektrokimyanın Teknolojik Uygulamaları Compulsory 3 0 8
21 KMYF729 Nanokompozit Malzemeler ve Uygulamaları Compulsory 3 0 8
22 KMYF730 Kil-Polimer Nanokompozitler Compulsory 3 0 8
23 KMYF731 Elektrokimyasal Polimerizasyon Compulsory 3 0 8
24 KMYF732 Fizikokimyada İstatistiksel Yöntemler I Compulsory 3 0 8
25 KMYF733 Fizikokimyada İstatistiksel Yöntemler II Compulsory 3 0 8
26 KMYF734 Potansiyometrik ve Kondüktometrik Titrasyon Yöntemleri Compulsory 3 0 8
27 KMYF801 İleri Kinetik I Compulsory 3 0 8
28 KMYF802 İleri Kinetik II Compulsory 3 0 8
29 KMYF803 Heterojen Kataliz Compulsory 3 0 8
30 KMYF804 İyon-İyon Ara Etkileri Compulsory 3 0 8
31 KMYF805 İyon-Çözücü Ara Etkileri Compulsory 3 0 8
32 KMYF806 Metal-Ligand Kompleksleşme Stokiometrisinin Tayini Compulsory 3 0 8
33 KMYF807 Anyonik Polimerizasyon Compulsory 3 0 8
34 KMYF808 Endüstriyel Ölçme Teknikleri Compulsory 3 0 8
35 KMYF809 İstatistiksel Termodinamik Compulsory 3 0 8
36 KMYF810 Katyonik Polimerizasyon Compulsory 3 0 8
37 KMYF811 Organik Maddelerin Elektrokimyası I Compulsory 3 0 8
38 KMYF812 Organik Maddelerin Elektrokimyası II Compulsory 3 0 8
39 KMYF813 Polimer Çözeltileri Termodinamiği Compulsory 3 0 8
40 KMYF815 Organik Elektrot Reaksiyonlarının Aydınlatılması Compulsory 3 0 8
2 . Semester > KMYF-S5,6,7-YL Elective - 5-6-7
No Course Unit Code Course Unit Title Type of Course T P ECTS
1 KMYA809 İleri İstatistiksel Yöntemler Compulsory 3 0 8
2 KMYF701 İleri Fizikokimya I Compulsory 3 0 8
3 KMYF702 İleri Fizikokimya II Compulsory 3 0 8
4 KMYF703 İleri Elektrokimya I Compulsory 3 0 8
5 KMYF704 İleri Elektrokimya II Compulsory 3 0 8
6 KMYF705 Polymer Chemistry I Compulsory 3 0 8
7 KMYF706 Polymer Chemistry II Compulsory 3 0 8
8 KMYF709 Termal Analiz Compulsory 3 0 8
9 KMYF710 İleri Faz Dengesi Compulsory 3 0 8
10 KMYF711 Kuantum Kimyası I Compulsory 3 0 8
11 KMYF712 Kuantum Kimyası II Compulsory 3 0 8
12 KMYF713 Fizikokimyada Özel Konular I Compulsory 3 0 8
13 KMYF714 Fizikokimyada Özel Konular II Compulsory 3 0 8
14 KMYF715 Zayıf Asit-Bazların Termodinamik Asit Sabitlerinin Tayini Compulsory 3 0 8
15 KMYF716 İleri Elektrokimyasal Yöntemler ve Uygulamaları I Compulsory 3 0 8
16 KMYF717 İleri Elektrokimyasal Yöntemler ve Uygulamaları II Compulsory 3 0 8
17 KMYF719 Biyoelektrokimya Compulsory 3 0 8
18 KMYF722 Katı Elektrolitler ve Uygulamaları Compulsory 3 0 8
19 KMYF724 Elektrokimya ve Enerji Compulsory 3 0 8
20 KMYF725 Elektrokimyanın Teknolojik Uygulamaları Compulsory 3 0 8
21 KMYF729 Nanokompozit Malzemeler ve Uygulamaları Compulsory 3 0 8
22 KMYF730 Kil-Polimer Nanokompozitler Compulsory 3 0 8
23 KMYF731 Elektrokimyasal Polimerizasyon Compulsory 3 0 8
24 KMYF732 Fizikokimyada İstatistiksel Yöntemler I Compulsory 3 0 8
25 KMYF733 Fizikokimyada İstatistiksel Yöntemler II Compulsory 3 0 8
26 KMYF734 Potansiyometrik ve Kondüktometrik Titrasyon Yöntemleri Compulsory 3 0 8
27 KMYF801 İleri Kinetik I Compulsory 3 0 8
28 KMYF802 İleri Kinetik II Compulsory 3 0 8
29 KMYF803 Heterojen Kataliz Compulsory 3 0 8
30 KMYF804 İyon-İyon Ara Etkileri Compulsory 3 0 8
31 KMYF805 İyon-Çözücü Ara Etkileri Compulsory 3 0 8
32 KMYF806 Metal-Ligand Kompleksleşme Stokiometrisinin Tayini Compulsory 3 0 8
33 KMYF807 Anyonik Polimerizasyon Compulsory 3 0 8
34 KMYF808 Endüstriyel Ölçme Teknikleri Compulsory 3 0 8
35 KMYF809 İstatistiksel Termodinamik Compulsory 3 0 8
36 KMYF810 Katyonik Polimerizasyon Compulsory 3 0 8
37 KMYF811 Organik Maddelerin Elektrokimyası I Compulsory 3 0 8
38 KMYF812 Organik Maddelerin Elektrokimyası II Compulsory 3 0 8
39 KMYF813 Polimer Çözeltileri Termodinamiği Compulsory 3 0 8
40 KMYF815 Organik Elektrot Reaksiyonlarının Aydınlatılması Compulsory 3 0 8

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