The advanced molecular spectroscopy course aims to explain graduate students the physical chemistry used to describe molecular
vibrations.
It will introduce students to the group theory which is used to predict molecular vibrations according to the symmetry of the molecule.
In the second-half of the course the advanced topics in surface and interface-specific vibrational spectroscopies will be explained.
It will introduce students to the group theory which is used to predict molecular vibrations according to the symmetry of the molecule.
In the second-half of the course the advanced topics in surface and interface-specific vibrational spectroscopies will be explained.
This course is intended for students who plan to enroll in PhD program and think about pursuing an academic career.
- To understand physical principles describing molecular vibrations.
- To use character tables to predict IR and Raman active normal modes.
- To describe molecular orientation on surfaces based on polarization studies.
- To apply surface and interface sensitive vibrational spectroscopy to problems in science and technology.
| Class schedule | HW assignments (Including preparation and review of the class.) | Amount of Time Required | |
|---|---|---|---|
| 1. | Review of quantum chemistry. Molecular symmetry. Point groups. |
Read handouts and review your own knowledge on the topic. |
90minutes |
| 2. | Review of quantum chemistry. Molecular symmetry. Point groups. |
Read handouts and review your own knowledge on the topic. |
90minutes |
| 3. | Group theory. Character tables. Application of character tables. |
Read handouts and review your own knowledge on the topic. |
90minutes |
| 4. | Group theory. Character tables. Application of character tables. |
Read handouts and review your own knowledge on the topic. |
90minutes |
| 5. | Molecular vibrations and normal modes. Calculation of the energy of the normal modes using Gaussian. |
Read handouts and review your own knowledge on the topic. |
90minutes |
| 6. | Molecular vibrations and normal modes. Calculation of the energy of the normal modes using Gaussian. |
Read handouts and review your own knowledge on the topic. |
90minutes |
| 7. | Mid-term exam. | Review acquired knowledge and read designated chapters of the textbook. |
300minutes |
| 8. | Polarization, overtones, inversion doubling. | Read handouts and review your own knowledge on the topic. |
90minutes |
| 9. | Surface-sensitive vibrational spectroscopies. Polarization and orientation of molecules on surfaces. |
Read handouts and review your own knowledge on the topic. |
90minutes |
| 10. | Surface-sensitive vibrational spectroscopies. Polarization and orientation of molecules on surfaces. |
Read handouts and review your own knowledge on the topic. |
90minutes |
| 11. | Tip-enhanced Raman spectroscopy. Nonlinear spectroscopy. |
Read handouts and review your own knowledge on the topic. |
90minutes |
| 12. | Tip-enhanced Raman spectroscopy. Nonlinear spectroscopy. |
Read handouts and review your own knowledge on the topic. |
90minutes |
| 13. | Instrumentation- lasers, photon detectors. | Read handouts and review your own knowledge on the topic. |
90minutes |
| 14. | Final exam. | Review acquired knowledge and read designated chapters of the textbook. |
300minutes |
| Total. | - | - | 1680minutes |
| Quizzes | Mid-term exam | Final exam | Report | Total. | |
|---|---|---|---|---|---|
| 1. | 10% | 30% | 30% | 30% | 100% |
| 2. | 0% | ||||
| 3. | 0% | ||||
| 4. | 0% | ||||
| Total. | 10% | 30% | 30% | 30% | - |
Evaluation will be performed on the basis of exam results, report and quizzes.
Donald A. McQuarrie, John D. Simon: Physical Chemistry: A Molecular Approach
P. W.Atkins: Physical Chemistry, 8th Edition, New York, 2006.
D. C. Harris, M.D. Bertolucci: Symmetry and Spectroscopy: Dover, 1989.
P. W.Atkins: Physical Chemistry, 8th Edition, New York, 2006.
D. C. Harris, M.D. Bertolucci: Symmetry and Spectroscopy: Dover, 1989.
Solid background in physics, chemistry and mathematics.
Completed the basic molecular spectroscopy course.
Completed the basic molecular spectroscopy course.
| Work experience | Work experience and relevance to the course content if applicatable |
|---|---|
| N/A | N/A |
Last modified : Fri Jun 28 04:02:59 JST 2019