Spectroscopic Methods of Materials Research

Major: Applied Physics and Nanomaterials
Code of subject: 8.105.00.M.029
Credits: 3.00
Department: Applied Physics and Nanomaterials Science
Lecturer: -
Semester: 4 семестр
Mode of study: денна
Learning outcomes: As a result of studying the discipline, the applicant must: - know the theoretical foundations, methods and techniques of Raman and impedance spectroscopy; - to carry out modeling according to impedance researches and to define numerical values of parameters of model electric equivalent schemes; - be able to draw conclusions about the nature and mechanisms of ongoing processes and reactions; - know the basic methods of Raman studies of various nanomaterials; - be able to interpret Raman spectra of nanostructures.
Required prior and related subjects: - pre-requisites: Research Methods in Applied Physics and Nanomaterials Science - co-requisites: Research Methods in Applied Physics and Nanomaterials Science, Physical Processes Simulation, Specific Areas of Chemistry.
Summary of the subject: Theoretical aspects of spectroscopic research methods. Methods and techniques of experiments. Basic structures of impedance models. Impedance spectroscopy of dielectric, semiconductor and metallic materials. Physico-chemical bases of electrochemical impedance. Impedance analysis of nanoheterostructures. Calibration of a Raman Spectrometer. Interpretation of Raman spectra of nanostructures. Raman spectroscopy of nanomaterials and nanostructures.
Assessment methods and criteria: Exam, dialogic speech, control test, differentiated test. - current control: (40 %): dialogic speech (40%); - final control (60%): exam – written component (50%), oral component (10%).
Recommended books: 1. Hryhorchak I. I., Ponedilok H. V. Impedansna spektroskopiia. – Lviv: Vydavnytstvo Natsionalnoho universytetu «Lvivska politekhnika», 2011. – 352s. 2. Stoinov Z. B., Hrafov B. M., Savova-Stoinova B., Elkyn V. V. Elektrokhimicheskyi impedans. – Moskva: Nauka, 1991. – 336 s. 3. Impedance spectroscopy. Theory, experiment and application / Ed. Barsoukov E. and Macdonald J. R.- Wiley interscience (Canada). – 2005. - 585 p. 4. Raman Spectroscopy for Nanomaterials Characterization/ Challa S. S. R. Kumar. – Springer-Verlag Berlin Heidelberg 2012. – 658 p. 5. Vandenabeele P. Practical Raman spectroscopy: an introduction/ John Wiley & Sons. – 2013. – 193p. 6. Smith E., Dent G. Modern Raman spectroscopy: a practical approach. – Wiley interscience. – 2019. – 248p.