General

Gang Li(李刚)

State Key Laboratory of Molecular Reaction Dynamics 

Dalian Institute of Chemical Physics, Chinese Academy of Sciences

457 Zhongshan Road, Dalian 116023, China.

Phone: +86-13390019798

E-mail: gli@dicp.ac.cn


Research Areas

1. My research interest is mainly focused on the investigations of structural dynamics and structure-reactivity relationship of clusters

 using infrared-vacuum ultraviolet (IR-VUV), infrared photodissociation (IRPD), and photoelectron spectroscopy.

2. Studying pyrolysis and catalytic reaction mechanism of coal based compounds by using homemade molecular beam mass spectroscopy

 coupled with VUV light.

Education

2009.9 – 2015.6     Ph.D in Chemical Technology, Dalian University of Technology, China. 

2005.9 – 2009.7     B.S. in Chemical Engineering and Technology, Henan University,  China.


Experience

2022.7 – now           Associate professor, State Key Laboratory of Molecular Reaction Dynamics, Dalian Institute of Chemical Physics, Chinese Academy of Sciences, China.

2020.7 – 2022.6       Research assistant, State Key Laboratory of Molecular Reaction Dynamics, Dalian Institute of Chemical Physics, Chinese Academy of Sciences, China.

2017.3 – 2020.6 Postdoctoral Research Scientist, State Key Laboratory of Molecular Reaction Dynamics, Dalian Institute of Chemical Physics, Chinese Academy of Sciences, China. 

2015.9 – 2017.2       Lecturer, Henan University of Urban Construction, Henan Province, China.


Publications

1. S. Jiang, H. J. Zheng, W. H. Yan, T. T. Wang, C. Wang, S. D. Li, H. Xie, G. Li,* X. C. Zheng,* H. J. Fan,* L. Jiang,* Capturing hydrogen radicals by neutral metal hydroxides The Journal of Physical Chemistry Letters, 2023, 14, 2481-2486.

2. H. J. Zheng,# Y. Y. Zhang,# T. T. Wang, S. Jiang, W. H. Yan, C. Wang, Y. Zhao, H. S. Hu, J. Y. Yang, W. Q. Zhang, G. R. Wu, D. X. Dai, G. Li,* J. Li,* X. M. Yang, L. Jiang,* Spectroscopic snapshot for neutral water nonamer (H2O)9: adding a H2O onto a hydrogen bond-unbroken edge of (H2O)8, The Journal of Chemical Physics, 2023, 158, 014301.

3. C. Wang,# L. F. Fu,# S. Yang, H. J. Zheng, T. T. Wang, J. Gao, M. Z. Su, J. Y. Yang, G. R. Wu, W. Q. Zhang, Z. J. Zhang,* G. Li,* D. H. Zhang, X. M. Yang, L. Jiang,* Infrared spectroscopy of stepwise hydration motifs of sulfur dioxide. The Journal of Physical Chemistry Letters, 2022, 13, 5654-5659.

4. Y. Zhao, T. T. Wang, C. Wang, Z. Y. Zhang, H. J. Zheng, S. Jiang, W. H. Yan, H. Xie, G. Li,* J. Y. Yang, G. R. Wu, W. Q. Zhang, D. X. Dai, X. C. Zheng,* H. J. Fan,* L. Jiang,* X. M. Yang, M. F. Zhou, Ligand-induced tuning of the electronic structure of rhombus tetraboron cluster, ChemPhysChem, 2022, 23, 202200060.

5. Y. Y. Zhang,# C. Wang,# G. Li,# X. Y. Zang, Y. Yu, H. S. Hu, J. Y. Yang, W. Q. Zhang, D. X. Dai, G. R. Wu, L. Jiang,* X. M. Yang,* J. Li,* Infrared spectroscopic signature of the structural diversity of the water heptamer, Cell Reports Physical Science, 2022, 3, 100748.

6. X. Y. Zang,# Z. Y. Zhang,# C. Wang, T. T. Wang, H. J. Zheng, H. Xie, J. Y. Yang, D. X. Dai, G. R. Wu, W. Q. Zhang, G. Li,* X. M. Yang, L. Jiang,* Vacuum ultraviolet free-electron laser photoionization mass spectrometry of alpha-pinene ozonolysis, Chinese Journal of Chemical Physics, 2022, 35, 2.

7. G. Li,# Y. Y. Zhang,# Q. M. Li,# C. Wang, Y. Yu, B. B. Zhang, H. S. Hu, W. Q. Zhang, D. X. Dai, G. R. Wu, D. H. Zhang, J. Li,* X. M. Yang,* L. Jiang,* Infrared spectroscopic study of hydrogen bonding topologies in the smallest ice cube, Nature Communications, 2020, 11, 5449.

8. G. Li,# C. Wang,# Q. M. Li,# H. J. Zheng, T. T. Wang, Y. Yu, M. Z. Su, D. Yang, L. Shi, J. Y. Yang, Z. G. He, H. Xie, H. J. Fan, W. Q. Zhang, D. X. Dai, G. R. Wu, X. M. Yang, L. Jiang,* Infrared+vacuum ultraviolet two-color ionization spectroscopy of neutral metal complexes based on a tunable vacuum ultraviolet free-electron laser, Review of Scientific Instruments, 2020, 91, 034103.

9. G. Li, C. Wang, H. J. Zheng, T. T. Wang, H. Xie, X. M. Yang, L. Jiang,* Infrared spectroscopy of neutral clusters based on a vacuum ultraviolet free electron laser, Chinese Journal of Chemical Physics, 2021, 34, 51-60. (Invited Review)

10. G. Li, J. M. Zhang, H. Xie, X. T. Kong, L. Jiang,* Ligand-enhanced CO activation by the early lanthanide-nickel heterodimers: photoelectron velocity-map imaging spectroscopy of LnNi(CO)n- (Ln = La, Ce), The Journal of Physical Chemistry A, 2018, 122, 3811-3818.

11. G. Li,# L. Li,# L. J. Jin, Z. C. Tang,* H. J. Fan,* H. Q. Hu,* Methyl substitution effect in pyrolysis of coal-based model compound isomers, Fuel Processing Technology, 2018, 178, 371-378.

12. J. M. Zhang,# G. Li,# Q. Q. Yuan, J. H. Zou, D. Yang, H. J. Zheng, C. Wang, J. P. Yang, Q. S. Jing, Y. M. Liu, H. J. Fan, H. Xie,* Photoelectron velocity map imaging spectroscopic and theoretical study of heteronuclear MNi(CO)7 (M = V, Nb, Ta), The Journal of Physical Chemistry A, 2020, 124, 2264-2269.

13. G. Li, S. Y. Zhang, L. J. Jin, Z. C. Tang,* H. J. Fan,* H. Q. Hu,* In-situ analysis of volatile products from lignite pyrolysis with vacuum ultraviolet photoionization and electron impact mass spectrometry, Fuel Processing Technology, 2015, 133, 232-236.

14. G. Li, L. Li, L. Shi, L. J. Jin, Z. C. Tang,* H. J. Fan,* H. Q. Hu,* Experimental and theoretical study on pyrolysis mechanism of three coal based model compounds, Energy & Fuels, 2014, 28, 980-986.

15. G. Li, L. Li, L. J. Jin, Z. C. Tang,* H. J. Fan,* H. Q. Hu,* Experimental and theoretical investigation on three α,ω-diarylalkane pyrolysis, Energy & Fuels, 2014, 28, 6905-6910.