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Course Title: |
STRUCTURE IDENTIFICATION IN ORGANIC CHEMISTRY |
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Course Code: |
KIM6042 |
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Type of Course: |
Optional |
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Level of Course: |
Third Cycle |
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Year of Study: |
1 |
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Semester: |
2 |
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ECTS Credits Allocated: |
5 |
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Theoretical (hour/week): |
3 |
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Practice (hour/week) : |
0 |
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Laboratory (hour/week) : |
0 |
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Prerequisites: |
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Recommended optional programme components: |
None |
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Language: |
Turkish |
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Mode of Delivery: |
Face to face |
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Course Coordinator: |
Prof. Dr. NECDET COŞKUN |
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Course Lecturers: |
- |
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Contactinformation of the Course Coordinator: |
coskun@uludag.edu.tr
+90 224 29 41 725
Uludağ Üniversitesi, Fen-Edebiyat Fakültesi, Kimya Bölümü, 16059 Görükle / BURSA, TÜRKİYE
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Website: |
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Objective of the Course: |
The objective of the course is teach the basic principles of spectroscopic techniques (IR, H-NMR, C NMR, MS, UV) and interpreting spectrum of organic compounds. |
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Contribution of the Course to Professional Development |
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| Week |
Theoretical |
Practical |
| 1 |
The theory of IR spectroscopy and sample preparation techniques
The theory of IR spectroscopy
Sample preparation techniques for the get of the spectrum |
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| 2 |
IR spectrum interpretations
Characteristic group frequencies
Spectrum interpretation |
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| 3 |
The of theory 1H-NMR and 13C-NMR spectroscopy
The theory of 1H-NMR spectroscopy
The theory of 13C-NMR spectroscopy |
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Sample preparation for NMR
Sample preparation techniques, and techniques for the getting of NMR spectra |
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Interpretation of NMR spectra
interpretation the 1H-NMR and 13C-NMR spectras of the organic compounds |
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Factors affecting chemical shift, spin-spin coupling
Chemical shift
The factors determining the chemical shifts
diamagnetic anisotropy
Spin-spin interactions and the factors affecting |
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Interpretation of first-order spectra
Interpretation of the first order 1H-NMR and 13C-NMR spectra of different classes of organic compounds |
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| 8 |
Two-dimensional (2D)-NMR techniques
2D-spectroscopy and theory
COSY, HETCOR and interpretation of the spectra |
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| 9 |
The basic principles of UV-VIS spectroscopy
The theory of the method and electronic excitations
The technique to get pectrum
Spectrum interpretation, the effect of conjugation |
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| 10 |
Mass spectrometry
The theory of mass spectrometry
Ionization techniques
The basic components of the device
Sample preparation and getting of the spectrum |
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Determination of molecular formula, molecular ion peaks
Determination of molecular weights
Determination of molecular formula
Tthe molecular ion peak and its determination |
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Mass spectra interpretation
Mass spectrum interpretation and using the technique for structure elucidation
Structural analysis and fragmentations of the different classes of organic compound |
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The use of these techniques together for the structure elucidation
The interpretation of the structures of known or unknown organic compounds by using these techniques together |
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The use of these techniques together for the structure elucidation
The interpretation of the structures of known or unknown organic compounds by using these techniques together |
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