Associate Prof. Hui-Jun Li

 

 

Post

·           Associate Professor, Master Supervisor in Materials Science and Engineering

 

Academic careers

·           2007-2011： Bachelor’s degree of Applied Chemistry, Jiangnan University

·           2011-2016： Doctor’s degree of Physical Chemistry, Fudan University

 

Employments

·           2016-2018: Postdoc, School of Materials Science and Engineering, USST

·           2018-2021: Lecturer, School of Materials Science and Engineering, USST

·           2021-: Associate Professor, School of Materials Science and Engineering, USST

 

Research interests

·           Application of optoelectronic semiconductor in the fields of photocatalysis and sensing.

 

Important research and development projects

·         Interfacial Modification of TiO_2-x/N Doped-Graphene Quantum Dots Heterojunction Nanostructures for Photocatalytic Applications, National Natural Science Foundation of China, 2018-2020.

·         Study of the Interfacial Charge Modulation in Si@MOF Core-Shell Nanowire Arrays and Their Photoelectrochemical Immune-Sensing Mechanism. Natural Science Foundation of Shanghai, 2021-2024.

·         Synthesis of Graphene Quantum Dots with High Quality via Low-Cost Fenton Reaction and Study of its Photocatalysis Performance, Shanghai Chenguang Project. 2020-2022.

 

Important papers and publications

(1)    Bowen Lyu, Hui-Jun Li^⁎, Fengfeng Xue, Liman Sai, Bojie Gui, Dongjin Qian, Xianying Wang⁎, Junhe Yang. Facile, Gram-Scale and Eco-friendly Synthesis of Multi-Color Graphene Quantum Dots by Thermal-Driven Advanced Oxidation Process. Chemical Engineering Journal 2020 (388), 124285.

(2)    Hui-Jun Li^†, Darui Zhang, Hongwu Wang, Zhenlu Chen, Nanquan Ou, Ping Wang, Ding Wang, Xianying Wang and Junhe Yang. Molecule-Driven Nanoenergy Generator. Small 2019, 15(3), 1804146.

(3)    Hui-Jun Li^†, Nan-Quan Ou, Xiong Sun, Bo-Wen Sun, Dong-Jin Qian, Meng Chen, Xianying Wang and Junhe Yang Exploitation of the synergistic effect between surface and bulk defects in ultra-small N-doped titanium suboxides for enhancing photocatalytic hydrogen evolution. Catalysis Science & Technology, 2018, 8, 5515-5525.

(4)    Hui-Jun Li^†, Xiong Sun, Fengfeng Xue, Nanquan Ou, Bowen Sun, Dongjin Qian, Ding Wang, Junhe Yang and Xianying Wang. Redox induced fluorescence on–off switching based on nitrogen enriched graphene quantum dots for formaldehyde detection and bioimaging. ACS Sustainable Chemistry & Engineering, 2018, 6, 1708-1716.

(5)    Hui-Jun Li^†, Dong-Jin Qian and Meng Chen. Templateless Infrared Heating Process for Fabricating Carbon Nitride Nanorods with Efficient Photocatalytic H₂ Evolution. ACS Applied Materials & Interfaces, 2015, 7, 25162.

 

Important patents and proprietary rights

·           A preparation route to visible-light-driven nitrogen-doped titanium photocatalyst, China Patent, ZL 201810107004.8

·           A preparation route to oxidized nitrogen-doped carbon dots fluorescent probe for formaldehyde sensing, China Patent, ZL 201910167660.1

 

Honors and awards [Optional]

·           Chinese Graphene Innovation and Entrepreneurship Competition (Second Prize), 2018

 

Activities in professional associations [Optional]

·           Reviewer: Carbon, Journal of Industrial and Engineering Chemistry、Colloids and Surfaces A, etc.

 

Contact me

·           E-mail: huijunli0701@126.com