Name: Li Jianan

Professional field: Environmental Science & Engineering

E-mail: lijianan@ecust.edu.cn

Profile:

Li Jianan, male, born in 1990, my hometown is Tieling, Liaoning Province. My research field is mainly focused on the resource utilization of environmental small molecules. The in-situ high-resolution spectroscopy characterization method is used to study the chemical reaction behavior of the environmental micro-interfaces to realize the green catalytic conversion of environmental pollutants under the coupling of light (electric) field.

• 2009.9-2013.7    Bachelor of Engineering    Dalian University of Technology  Environmental Engineering

• 2013.9-2019.7    Doctor of Engineering    Dalian University of Technology           Environmental Science

• 2019.7-          Postdoc      East China University of Science and Technology        School of Resources and Environmental Engineering

Research field: Green Catalysis，Water Pollution Control，Environmental Electrochemistry

Research results and main published thesis

[1] Jianan Li, Xinyong Li*, Zhifan Yin, Xinyang Wang, Hangfan Ma, and Lianzhou Wang. Synergetic Effect of Facet Junction and Specific Facet Activation of ZnFe₂O₄ Nanoparticles on Photocatalytic Activity Improvement. ACS Applied Materials & Interfaces， 2019, 11(32): 29004-29013.

[2] Jianan Li, Xinyong Li*, Libin Zeng, Shiying Fan, Mingmei Zhang, Wenbo Sun, Xin Chen, Moses O. Tadé, and Shaomin Liu. Functionalized nitrogen-doped carbon dot-modified yolk-shell ZnFe₂O₄ nanospheres with highly efficient light harvesting and superior catalytic activity. Nanoscale, 2019, 11(9): 3877-3887.

[3] Jianan Li, Xinyong Li*, Qidong Zhao, Zao Jiang, Moses Tadé, Shaobin Wang, and Shaomin Liu. Polydopamine-assisted decoration of TiO₂ nanotube arrays with enzyme to construct a novel photoelectrochemical sensing platform. Sensors and Actuators B: Chemical, 2018, 255: 133-139.

[4] Jianan Li, Xinyong Li*, Xin Chen, Zhifan Yin, Yaxuan Li, and Xuchuan Jiang. In situ construction of yolk-shell zinc ferrite with carbon and nitrogen co-doping for highly efficient solar light harvesting and improved catalytic performance. Journal of Colloid and Interface Science, 2019, 554: 91-102.

[5] Jianan Li, Xinyong Li*, Xin Wang, Libin Zeng, Xin Chen, Jincheng Mu, and Guohua Chen. Multiple regulations of Mn-based oxides in boosting peroxymonosulfate activation for norfloxacin removal. Applied Catalysis A: General, 2019, 584: 117170.

[6] Libin Zeng, Shiyu Li, Xinyong Li^*, Jianan Li, Shiying Fan, Xin Chen, Zhifan Yin, Moses Tadé, and Shaomin Liu. Visible-light-driven sonophotocatalysis and peroxymonosulfate activation over 3D urchin-like MoS₂/C nanoparticles for accelerating levofloxacin elimination: Optimization and kinetic study. Chemical Engineering Journal, 2019, 378: 122039.

[7] Libin Zeng, Xinyong Li^*, Shiying Fan, Jianan Li, Jincheng Mu, Meichun Qin, Liang Wang, Guoqiang Gan, Moses Tadé, and Shaomin Liu. The bioelectrochemical synthesis of high-quality carbon dots with strengthened electricity output and excellent catalytic performance. Nanoscale, 2019, 11(10): 4428-4437.

[8] Xinyue Li, Jianan Li, Yong Shi, Mingmei Zhang, Shiying Fan, Zhifan Yin, Meichun Qin, Tingting Lian, and Xinyong Li^*. Rational design of cobalt and nitrogen co-doped carbon hollow frameworks for efficient photocatalytic degradation of gaseous toluene. Journal of Colloid and Interface Science, 2018, 528, 45-52.

[9] Qiang Zhou, Qidong Zhao^*, Wei Xiong, Xinyong Li^*, Jianan Li, and Libin Zeng. Hollow porous zinc cobaltate nanocubes photocatalyst derived from bimetallic zeolitic imidazolate frameworks towards enhanced gaseous toluene degradation. Journal of Colloid and Interface Science, 2018, 516, 76-85.