Dr. Songjie Li
Associate Professor, Doctor, Zhengzhou Univiversity
Education
Sep. 2003 – Jun. 2006 Master, Chemical Engineering and Technology, Zhengzhou University
Sep. 2006 – Jun. 2010 Joint-training Ph.D, Material Science and Technology, National Institute for Materials Science, Japan (NIMS) and University of Science and Technology Beijing (USTB)
Job experience
Oct. 2011 – Dec. 2014 Post-Doctoral Researcher, National Institute for Materials Science, Japan
Jan. 2015 – present Associate Professor, School of Chemical Engineering and Energy, Zhengzhou University
Sep.2018 – present Visiting researcher, Tohoku University, Japan
Publications
[1] S.Li, W.Cao, et al. Mo and P co-doped Ba5Ta4O15 for hydrogen evolution under solar light. Physica B: Condensed Matter 2018,541:1–5.
[2] C. Wang, X. Du, S. Li*, et.al. Morphology and Crystallography of Ausferrite in Austempered Ductile Iron. Metals, 2017, 7(7):238.
[3] E. Akiyama, S. Li. Electrochemical Hydrogen Permeation Tests under Conventional Potentiostatic Hydrogen Charging Conditions for Hydrogen Embrittlement Study. ECS Transactions, 2017,75 (29) 23-31.
[4] S.Li, H. Qiu, C. Wang, Y. Sun et.al. Highly efficient NaTaO3 for visible light photocatalysis predicted from first principles. Sol Energ Mat Sol C, 2016, 149, 97-102.
[5] E. Akiyama, S. Li. Electrochemical hydrogen permeation test under controlled temperature and humidity after outdoor exposure at Beijing, Chongqing and Okinawa. ISIJ International, 2016, 56(3), 436-443.
[6] E. Akiyama, S. Li. Electrochemical hydrogen permeation tests under galvanostatic hydrogen charging conditions conventionally used for hydrogen embrittlement study. Corrosion reviews, 2016, 34(1-2), 103-112.
[7] S.Li, W.Cao, et al. Band gap engineering of Ba5Nb4O15 for efficient water splitting under visible light. J. Alloy. Comd, 2015, 644, 757-762.
[8] S.Li, C. Wang, et.al. Single- and few-layer ZrS2 as efficient photocatalysts for hydrogen production under visible light. Int. J. Hydrogen Energy, 2015, 40(45), 15503-15509.
[9] S. Li, E. Akiyama. Hydrogen entry behavior into iron and steels under atmospheric corrosion. ISIJ International, 2013, 53(6), 1062-1069.
[10] E. Akiyama, S. Li. Hydrogen entry into Fe and high strength steels under simulated atmospheric corrosion. Electrochim Acta, 2011, 56(4), 1799-1805.
[11] S. Li, E. Akiyama et.al.. Evaluation of delayed fracture property of outdoor-exposed high strength AISI 4135 steels. Corrosion Science, 2010, 52(10):3198-3204.
[12] S. Li, Z. Zhang, E. Akiyama et.al.. Evaluation of susceptibility of high strength steels to delayed fracture by using cyclic corrosion test and slow strain rate test. Corrosion Science, 2010, 52(5): 1660-1667.
[13] S. Li, E. Akiyama et.al. Hydrogen embrittlement property of a 1700 MPa class ultra-high strength tempered martensitic steel. Science and Technology of Advanced Materials, 2010, 11(2): 025005.
Projects
1. Studies on the delayed fracture properties of marine high strength steels and hydrogen entry behavior under marine atmospheric environment, the National Natural Science Foundation of China, 2017-2019.
2. Studies on the delayed fracture behavior of high strength steel. Key Scientific Research Projects of He’nan Educational Committee, 2015-2017.
Contact Her
Dr. Songjie Li
School of Chemical Engineering and Energy, Zhengzhou University
No.100 Science Avenue, Zhengzhou City, Henan Province, P.R.China.
Postcode: 450001 Phone: 86-371-67781801
E-mail : songjie@zzu.edu.cn