Faculty of Chemistry

University of Belgrade

Spectroscopic Methods in Inorganic Chemistry (3172H)

Course code: 3172H	Course name: Spectroscopic Methods in Inorganic Chemistry
Academic year:	2012/2013.
Attendance requirements:	There are no requirements.
ECTS:	5
Study level:	doctoral academic studies
Study programs:	Chemistry: 1. year, winter semester, elective (3IP1H) course Chemistry: 1. year, winter semester, elective (3IP3H) course Chemistry: 1. year, winter semester, elective (3IP2H) course Chemistry: 1. year, summer semester, elective (3IP4H) course Chemistry: 2. year, winter semester, elective (3IP5H) course Chemistry: 2. year, winter semester, elective (3IP6H) course
Teachers:	Snežana D. Zarić, Ph.D. full professor, Faculty of Chemistry, Studentski trg 12-16, Beograd Sanja R. Grgurić Šipka, Ph.D. full professor, Faculty of Chemistry, Studentski trg 12-16, Beograd
Assistants:	—
Hours of instruction:	Weekly: three hours of lectures (3+0+0)
Goals:	In undergraduate courses students learn about spectroscopic methods. Hence, the main aim of this course it is to teach students to use spectroscopic methods to characterize coordination compounds.
Outcome:	After this course students should be able to use various spectroscopic methods to characterize coordination compounds.
Teaching methods:	Lectures, solving problems.
Extracurricular activities:	Searching literature, homework.
Coursebooks:	Main coursebooks: Inorganic Spectroscopic Methods, Alan K. Brisdon Supplementary coursebooks: Papers from the journals
Additional material:	—
Course activities and grading method
Lectures:	0 points (3 hours a week) Syllabus: Characterization of complex compounds by infrared and Raman spectroscopy. Electronic absorption spectroscopy (UV/Vis). Metal-metal transfers. Splitting of orbitals in ligand field. Jahn-Teller effect. M.O. theory, spectrochemical series. Optical rotatory disperzion and its application in assignment of absolute configuration. Circular dichroism and its application in assignment of absolute configuration. Characterization of complex compounds by NMR spectroscopy. Mass spectroscopy. Ionization methods. Electron spin resonance spectroscopy. Solving problems by combining spectroscopic methods.
Written exam:	30 points
Oral exam:	70 points