Courses:
1. Phys. Chem.
2. Experiments for Phys. Chem.
3. Intelligent Mol. & Mater.
4. Magic Chem. (Freshmen's Seminar)
5. Calc. Chem. (for Graduate students)
Investigations:
1. Theoretical simulation of photoelectric and magnetic properties of porphyrins/phthalocyanine functional molecular materials.
2. Developing the Programes for the photoelectric and magnetic properties of porphyrins/phthalocyanines.
C.V.:
1. 2002-2007 B.S. student at two departments in Shandong University, Jinan, China. 1) Department of Chemistry; 2) Department of Chemical Engineering & Technology. These two B.S. degrees costed me five years.
2. 2007-2010 M.S. student at Department of Chemistry in Shandong University.
3. 2010-2013 Ph. D. student at Department of Chemistry in the University of Science & Technology Beijing, China.
4. 2013-2015 Postdoc at Department of Chemistry in the University of Science & Technology Beijing, China.
5. 2015-2019 1) Lecturer at Department of Chemistry in the University of Science & Technology Beijing; 2) Assistant Researcher at Beijing Key Laboratory for Science and Application of Functional Molecular and Crystalline Materials in the University of Science & Technology Beijing.
6. 2019-2020 Visiting Scholar in University of Puerto Rico.
7. 2020-now Associate Professor at Department of Chemistry in the University of Science & Technology Beijing

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Each year, one master student is recruited.

1. D. Qi*, TD-Analy Program, from Version 1.00 (release in 2014) to Version 1.13 (release in 2016). This is a program to analysis the electron transition mechanism in organic materials.
2. D. Qi*, NLO-Calculator Program, from Version 0.1 (release in 2012) to Version 0.24 (release in 2014). This is a program to design the 2nd order nonlinear optical materials based on organic molecules.
3．C. Wang, X. Chen, H. Pan, D. Qi*, J. Jiang*, Towards developing efficient aminopyridine-based electrochemical catalysts for CO2 reduction: a density functional theory study. J. Catalysis, 2019, 373, 75.
4. W. Liu, Y. Hou, H. Pan, W. Liu, D. Qi,* K. Wang,* J. Jiang*, X. Yao, An ethynyl-linked Fe/Co heterometallic phthalocyanine conjugated polymer for the oxygen reduction reaction. J. Mater. Chem. A, 2018, 6, 8349.
5. W. Liu, K. Wang, C. Wang, W. Liu, H. Pan, Y. Xiang, D. Qi*, J. Jiang*, Mixed phthalocyanine-porphyrin-based conjugated microporous polymers towards unveiling the activity origin of Fe–N4 catalysts for the oxygen reduction reaction. J. Mater. Chem. A, 2018, 6, 22851.
6. W. Liu, H. Pan, Z. Wang, K. Wang*, D. Qi*, J. Jiang*, Sandwich rare earth complexes simultaneously involving aromatic phthalocyanine and antiaromatic hemiporphyrazine ligands showing a predominantly aromatic nature. Chem. Commun., 2017, 53, 3765.
7. Y. Hou, J. Sun, D. Zhang, D. Qi*, J. Jiang*, Porphyrin–Alkaline earth MOFs with the highest adsorption capacity for methylene blue. Chem. Eur. J., 2016, 22, 6345.
8. Y. Chen, W. Cao, C. Wang, D. Qi*, K. Wang, J. Jiang*, Four dibutylamino substituents are better than eight in modulating the electronic structure and third-Order nonlinear-Optical properties of phthalocyanines. Inorg. Chem., 2016, 55, 3151.
9. D. Qi, J. Jiang*, Nature of the intense second-order nonlinear optical activity: DFT studies on the octupolarization of sandwich-type bis(phthalocyaninato) yttrium skeletons. ChemPhysChem, 2015, 16, 1889.
10. H. Shang, L. Zhao, D. Qi*, C. Chen, J. Jiang*, The first five-membered-heterocycle-fused subphthalocyanine analogues: chiral tri(benzo[b]thiopheno)subporphyrazines. Chem. Eur. J. 2014, 20, 16266.

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