Kimya (DR) (İngilizce)
Ders İçerikleri
1. Semester
| Course Code | Course Name | (T+A+L) | ECTS | Compulsory/Elective |
| CHEM6101 | Advanced Chemistry Courses | 5+0+0 | 14 | Compulsory |
| Course Content C-C Coupling reactions, some named reactions their deep discussion with literature chemical reviews and articles | ||||
2. Semester
| Course Code | Course Name | (T+A+L) | ECTS | Compulsory/Elective |
| CHEM6102 | Advanced Chemistry Courses 2 | 5+0+0 | 14 | Compulsory |
| Fundamental organic Chemistry. Basic terms in Organic Chemistry. Acid base definitions. Nucleophile, electrophile, carbocation, carbanion, radical. Type of arrows in Organic and mechanism Application. Discussion of Reaction mechanisms and discussion in Aldol, Claisen, Cannizaro, haloform, malonic ester, Michael reactions. Some Reaction mechanisms discussion from literature and articles. | ||||
| Course Code | Course Name | (T+A+L) | ECTS | Compulsory/Elective |
| CHEM6104 | Special Topics in Chemistry | 3+0+0 | 6 | Compulsory |
| Basic methodological concepts, examples of toxicological agents and chemical warfare agents and their effects on the environment and living creatures, the history of the Chemical Weapons Convention and the Organization for the Prohibition of Chemical Weapons, sample preparation and analysis techniques for chemical warfare agents in environmental and biomedical samples, reporting criteria and laboratory safety. | ||||
| Course Code | Course Name | (T+A+L) | ECTS | Compulsory/Elective |
| CHEM6106 | Research Methods and Ethics In Chemistry | 3+0+0 | 10 | Compulsory |
| An introduction to scientific research, Scientific thinking skills, Literature search, Citation and bibliography tools, Common citation styles, Research design, writing a research proposal, data processing and writing a research report Research article writing and publication skills, Computer skills in data presentation, Slide presentation techniques, Oral presentation techniques Poster presentation techniques, Research Ethics | ||||
3. Semester
| Course Code | Course Name | (T+A+L) | ECTS | Compulsory/Elective |
| CHEM6201 | Guided Research | 5+0+0 | 16 | Compulsory |
| Preparing a research proposal, conducting research | ||||
| Course Code | Course Name | (T+A+L) | ECTS | Compulsory/Elective |
| CHEM6203 | Seminar | 0+0+0 | 14 | Compulsory |
| Developing research questions, scanning resources, determining research methods and theoretical frameworks, and implementing them. Preparation for academic research and thesis writing process. | ||||
4. Semester
| Course Code | Course Name | (T+A+L) | ECTS | Compulsory/Elective |
| CHEM6202 | Qualifying Exam | 0+0+0 | 15 | Compulsory |
| The Qualification Exam consists of written and oral parts; The written part is given as an in-class exam. The oral part is done by verbal evaluation of the student in front of the jury. | ||||
| Course Code | Course Name | (T+A+L) | ECTS | Compulsory/Elective |
| CHEM6204 | Thesis Proposal Defence | 0+0+0 | 15 | Compulsory |
| Writing thesis proposal and its defense | ||||
5. Semester
| Course Code | Course Name | (T+A+L) | ECTS | Compulsory/Elective |
| CHEM6389 | PhD Thesis | 0+0+0 | 30 | Compulsory |
| The doctoral thesis involves the student being able to carry out an independent study after completing theoretical and practical courses under the supervision of a faculty member. For this reason, during the thesis study, the student works under the supervision of his/her advisor to scan the literature, collect and evaluate data, analyze and present the results in writing. | ||||
6. Semester
| Course Code | Course Name | (T+A+L) | ECTS | Compulsory/Elective |
| CHEM6390 | PhD Thesis | 0+0+0 | 30 | Compulsory |
| The doctoral thesis involves the student being able to carry out an independent study after completing theoretical and practical courses under the supervision of a faculty member. For this reason, during the thesis study, the student works under the supervision of his/her advisor to scan the literature, collect and evaluate data, analyze and present the results in writing. | ||||
7. Semester
| Course Code | Course Name | (T+A+L) | ECTS | Compulsory/Elective |
| CHEM6489 | PhD Thesis | 0+0+0 | 30 | Compulsory |
| The doctoral thesis involves the student being able to carry out an independent study after completing theoretical and practical courses under the supervision of a faculty member. For this reason, during the thesis study, the student works under the supervision of his/her advisor to scan the literature, collect and evaluate data, analyze and present the results in writing. | ||||
8. Semester
| Course Code | Course Name | (T+A+L) | ECTS | Compulsory/Elective |
| CHEM6490 | PhD Thesis | 0+0+0 | 30 | Compulsory |
| The doctoral thesis involves the student being able to carry out an independent study after completing theoretical and practical courses under the supervision of a faculty member. For this reason, during the thesis study, the student works under the supervision of his/her advisor to scan the literature, collect and evaluate data, analyze and present the results in writing. | ||||
Department/Programme Elective Courses
| Course Code | Course Name | (T+A+L) | ECTS |
| CHEM6001 | Chromatography | 3+0+0 | 8 |
| Introduction to chromatography, basic concepts. Introduction to chromatographic techniques. TLC, column chromatography. Introduction to chromatographic separation and its mathematical representations. Gas chromatography, injection systems, columns, detectors;HPLC, injection systems, pump systems, columns and detectors, .Ion chromatography, Affinite chromatography, size exclusion chromatography, super critical fluid chromatography, capillary electrophores, capillary electrochromatography | |||
| Course Code | Course Name | (T+A+L) | ECTS |
| CHEM6002 | Spectroscopy | 3+0+0 | 8 |
| Light matter interaction, radiation theory and basic principles of spectroscopy. Electronic spectroscopy: Photoelectron spectroscopy. Ultraviolet visible (UVVis) spectroscopy. Fluorescence and phosphorescence spectroscopy. Applications of UV spectroscopy: Analytical applications and structure analysis. Theoretical and experimental principles of Infrared spectroscopy. Applications of IR spectroscopy | |||
| Course Code | Course Name | (T+A+L) | ECTS |
| CHEM6003 | Phthalocyanines and Applications | 3+0+0 | 8 |
| Definition and history of phthalocyanines, nomenclature, synthesis methods, their place in the literature and studies on phthalocyanines in the literature, starting materials used in the synthesis of phthalocyanines and their synthesis, polymeric phthalocyanines, methods used in the purification of phthalocyanines, formation mechanism, reactions, Physical and chemical properties, spectroscopy, application fields, differences between phthalocyanine and porphyrin | |||
| Course Code | Course Name | (T+A+L) | ECTS |
| CHEM6004 | Smart Polymeric Materials | 3+0+0 | 8 |
| Classical versus smart materials, Biomimetic materials research, Self-healing mechanisms in biological systems, Smart wormlike surfactants, Smart polymers and gels, Reversible polymer networks, Macroporous responsive polymers, Drug delivery using smart polymers, Gels for sensors and actuators, Shapememory, Self-healing strategies, Damage and healing theories, Artificial self-healing systems, Fracture mechanics of polymeric materials, Self-healing in thermoplastic and thermoset materials, Self-healing smart hydrogels. | |||
| Course Code | Course Name | (T+A+L) | ECTS |
| CHEM6005 | Polymeric Drug Delivery Systems | 3+0+0 | 8 |
| Fundamentals of drug delivery, challenges of drug delivery, polymer–drug conjugates, polymeric microparticles, polymeric nanoparticles, block copolymer micelles and vesicles for drug delivery, implantable drug delivery systems, polymeric drug delivery systems in tissue engineering, oral controlled-release polymeric drug delivery systems, mucoadhesive drug delivery systems, enhanced oral drug delivery through metabolic pathways, stimuli-responsive polymer delivery systems, affinity-based drug delivery, targeting drug delivery systems. | |||
| Course Code | Course Name | (T+A+L) | ECTS |
| CHEM6006 | Polymer Physics | 3+0+0 | 8 |
| Course Code | Course Name | (T+A+L) | ECTS |
| CHEM6007 | Polymer Blends and Composites | 3+0+0 | 8 |