Wei Quan Tian
Wei Quan Tian, Ph. D., Professor of Chemistry
Email: tianwq@cqu.edu.cn
Dr. Tian obtained his BSc and MSc degrees in physical chemitry from Jilin University in 1994 and 1997. He received his Ph.D degree from the University of Guelph, Canada in 2001. He did his postdoctoral works at the University of Ottawa from 2001 to 2003 and at the University of British Columbia in Canada from 2003 to 2004. He was a JSPS fellow associated with Kyushu University from 2004 to 2005 in Japan. He then took a full professor position at Jilin University from 2005 to 2014 and at Harbin Institue of Technology from 2009 to 2014. He was a visiting professor in condensed mater theory of physics at the University of Louisville in USA from 2007 to 2008. He moved to Chongqing University as a professor of chemistry in 2014. He is interested in studying the structure and properties of nanomaterials with electronic structure theories.
Resear Intesrest
Nonlinear optics (up to fifth harmonic generation and three photon absorption) of nanomaterials
Structure, properties and reactivity of alloy clusters
Structure and properties of low dimensional materials
Nano-catalysts design
Selected Publications
1. Two-dimensional two-photon absorptions and third-order nonlinear optical properties of Ih fullerenes and fullerene onions, X.-L. Zheng, L. Yang, B. Shang, M. -Q. Wang, Y. -L. Niu*, W. -Q. Li*, W. Q. Tian*, Phys. Chem. Chem. Phys. 2020, 22, 14225-14235.
2. Carbon based Y-type molecules for application in nonlinear optics, C.-C. Yang, Y.-Y. He, X.-L. Zheng, J. Chen, L. Yang*, W.-Q. Li*, W. Q. Tian*, J. Mater. Chem. C, 2020, 8,1879-1886.
3. Long radiation lifetime and quasi-isotropic excitons in antioxidant v-v binary phosphorene allotropes with intrinsic dipole, Y. -D. Wei, Y. Jiang, K. Pang, X. -D. Xu, N. T. Kaner, X. Li, J. Yang, G. -L. Zhang, W. -Q. Li*, Y. -Y. Jiang*, and W. Q. Tian*, J. Phys. Chem. C, 2020, 124, 14787-14796.
4. Spiral graphene nanoribbons with azulene defects as potential nonlinear optical materials, Y.-Y. He, J. Chen, X.-L. Zheng, X. Xu, W.-Q. Li*, L. Yang*, W. Q. Tian*, ACS Appl. Nano Mater.2019, 2, 1648-1654.
5. Chiral heteronanotubes:arrangement-dominated chiral interface states and conductivities, X. -D. Xu, Y. -D. Wei, B. Y. Liu, W. -Q. Li*, G. -L. Zhang, Y. -Y. Jiang, W. Q. Tian*, L. -H. Liu*, Nanoscale, 2019, 11,8699-8705.
6. Hydrogen storage of dual-Ti-doped single-walledcarbon nanotubes, L. Yang*, L. Yu, H. W. Wei, W. Q. Li, X. Zhou, W. Q. Tian*, Int. J. Hydrogen Energy 2019, 44, 2960-2975.
7. NimMon (m+n=5) clusters for hydrogen electric reduction: synergistic effect of Ni and Mo on the adsorption and oh breaking of H2O, X.-L. Zheng, Y.-Y. He, J. Chen, D. Gao, Y.-H. Zhang, P. Xiao, W. Q. Tian*, J. Phys. Chem. C, 2019, 123, 9247-9254.
8. Spiral graphene nanoribbons with azulene defects as potential nonlinear optical materials, Y.-Y. He, J. Chen, X.-L. Zheng, X. Xu, W.-Q. Li*, L. Yang*, W. Q. Tian*, ACS Appl. Nano Mater. 2019, 2, 1648-1654.
9. Two-dimensional second order nonlinear optical spectra: landscape of second order nonlinear optics, J. Chen, M. Q. Wang, X. Zhou, L. Yang*, W.-Q. Li*, W. Q. Tian*, Phys. Chem. Chem. Phys. 2017, 19, 29315-29320.
10. Mechanism of mechanically induced optoelectronic and spintronic phase transitions in 1D graphene spirals: insight into the role of interlayer coupling, X. Xu, B. Liu, W. Zhao, Y. Jiang, L. Liu, W. Li*, G. Zhang, W. Q. Tian*, Nanoscale, 2017,9, 9693-9700.
11. Micro-mechanism in self-lubrication of TiB2+Al composite, X. Zhou, L. T. Jiang, S. B. Lei*, W. Q. Tian*, G. H. Wu*, ACS Appl. Mater. Interf., 2015, 7, 12688-12694.
12. Boron based two-dimensional crystals: theoretical design, realization proposal and applications, X.-B. Li, S.-Y. Xie*, H. Zheng, W. Q. Tian, H.-B. Sun*, Nanoscale, 2015, 7, 18863-18871.
13. Tuning the first hyperpolarizabilities of boron nitride nanotubes, J. Gu, Y. Q. Le, Y. Y. Hu, W. Q. Li*, W. Q. Tian*, ACS Photonics, 2014,1,928-935.
14. Nitrogen-fixation catalyst based on graphene: every part counts, Y. Q. Le, J. Gu, W. Q. Tian*, Chem. Commun. 2014, 50, 13319-13322.
15. Modeling nonlinear optics of nano-systems with sum-over-states model, W. Q. Tian*, J. Comput. Chem. 2012, 33, 466-470.