职称： 副教授
电话号码：
邮箱： jj_song@ntu.edu.cn
办公地址： 第十一教学楼S414室

教育/工作经历
2019.11-今，天津大学，副教授.
2017.05-2019.08，Nanyang technological University，博士后.
2013.08-2017.06，天津大学，博士.
2010.08-2013.06，太原理工大学，硕士.
2006.08-2010.06，河南师范大学，本科.
科研项目
研究方向
表面催化反应机理研究
所获学术奖项
代表性论文
1. Song, J.#; Huang, Z.-F.#; Zou, J.-J.*; Zhang, X.; Wang, L. Oxygen-deficient tungsten oxide as versatile and efficient hydrogenation catalyst, ACS Catal. 2015, 5, 6594-6599. (IF=11.384)
2. Song, J.#; Huang, Z.-F.#; Li, K.; Zou, J.-J.*; Zhang, X.; Wang, L. Review on selective hydrogenation of nitroarene by catalytic, photocatalytic, Appl. Catal. B: Environ. 2018, 227, 386-408. (IF=11.698)
3. Huang, Z.-F.#; Song, J.#; Du, Y.; Xi, S.; Dou, S.; Nsanzimana, J. M. V.; Xu, Z. J.*; Wang, X.* Chemical and structural origin of lattice oxygen oxidation on Zn-Co oxyhydroxide water oxidation electrocatalysts, Nat. Energy 2019, 4, 329–338. (IF=51.000)
4. Wu, T.#; Sun, S.#; Song J.#; Xi, S.; Du,? Y.; Chen, B.; Sasangka, W. A.; Liao, H.; Gan, C. L.; Scherer, G. G.; Zeng,? L.;?Wang, H.; Li, H.; Grimaud?, ?A.* and Xu, Z. J.* Iron-facilitated dynamic active-site generation on spinel CoAl2O4 with self-termination of surface reconstruction for water oxidation, Nature Catalysis 2019, 2, 763-772.
5. Huang, Z.-F. #; Song, J.#; Wang, X.; Zou, J.-J.*; Zhang, X.; Wang, L. Switching charge transfer of C3N4/W18O49 from type-II to Z-Scheme by interfacial band bending for highly efficient photocatalytic hydrogen evolution, Nano Energy 2017, 40, 308-316. (IF=13.120)
6. Dou, S.#; Song, J.#; Xi, S.; Du, Y. Wang, J.; Huang, Z.-F.; Xu, Z. J.; Wang, X*. Boosting Electrochemical CO2 Reduction on Metal–Organic Frameworks via Ligand Doping, Angew. Chem. Int. Edit. 2019, 131, 1-6. (IF=13.120)
7. Song, J.; Zhang, Y.-C.; Huang, Z.-F.; Pan, L.; Zhang, X.; Wang, L.; Zou, J.-J.* Structure and Activity Transition from Oxidized to Metallic Tungsten for Catalytic Hydrogenation: A Density Functional Theory Study, J. Phys. Chem. C 2018, 122, 23053–23061 (IF=4.484)
8. Song, J.; Niu, X.; Ling, L.; Wang, B.* A density functional theory study on the interaction mechanism between H2S and the α-Fe2O3(0001) surface, Fuel Process. Technol. 2013, 115, 26–33. (IF=3.956)
9. Song, J.; Huang, Z.-F.; Zou, J.-J.* Surface and interface engineering of tungsten oxide for highly-efficient catalysis, Materials Science Forum 2017, 900, 54-57
10. Wang, B.*; Song, J.; Niu, X.; Ling, L. The regeneration mechanisms of sulfurized alpha-Fe2O3 surfaces under O2 atmosphere: A density functional theory study, Fuel Process. Technol. 2014, 128, 238–250.
讲授课程
其他