Mingjie Wei   

Professor

Address：A504 Hongyi Building

Email：mj.wei(at)njtech.edu.cn

Education and Work Experience

September, 2006 – February, 2012

Nanjing Tech University (formerly Nanjing University of Technology)

PhD, Chemical Engineering

September, 2002 – July, 2006

Nanjing Tech University (formerly Nanjing University of Technology)

Bachelor, Chemical Engineering and Technology

September, 2014 – Now  Nanjing Tech University

May, 2014 – September, 2014 Ningbo Institute of Materials Technology, Chinese Academy of Science

March, 2012 – May, 2014 Vanderbilt University

Research Interests

Transport Mechanism of Membranes

Mechanism of Membrane Preparations

Design of Next-generation Membrane Materials

Academic achievements

Host several projects from NSFC and MOST

Selected Publications

[1] Xu, F.; Wei, M.; Wang, Y., Effect of hydrophilicity on ion rejection of sub-nanometer pores. Separation and Purification Technology, 2021, 257: 117937.

[2] Wei, M.; Wang, Y., Structure and dynamics of water in TiO2 nano slits: The influence of interfacial interactions and pore sizes. Chinese Journal of Chemical Engineering, 2021, 31: 67-74.

[3] Wang, G.; Zhang, X.; Wei, M.; Wang, Y., Mechanism of permeance enhancement in mixed-matrix reverse osmosis membranes incorporated with graphene and its oxides. Separation and Purification Technology, 2021, 270: 118818.

[4] Min, X.; Qin, W.; Zhang, X.; Fan, J.; Zhu, X.; Zhu, Y.; Wang, X.; Qiu, J.; Wang, Y.; Hu, X.; Wei, M.; Zhang, W., An ultra-high sensitive ethanol sensor through amending surface-functionalized groups by novel acidic synthesis methods. Sensors and Actuators B: Chemical, 2021, 347: 130654.

[5] Zhang, X.; Wei, M.; Xu, F.; Wang, Y., Pressure-dependent ion rejection in nanopores. The Journal of Physical Chemistry C, 2020, 124: 20498-20505.

[6] Zhang, X.; Wei, M.; Xu, F.; Wang, Y., Thickness-dependent ion rejection in nanopores. Journal of Membrane Science, 2020, 601: 117899.

[7] Xu, F.; Wei, M.; Zhang, X.; Wang, Y., Effect of hydrophilicity on water transport through sub-nanometer pores. Journal of Membrane Science, 2020, 611: 118297.

[8] Wei, M.; Zhou, W.; Xu, F.; Wang, Y., Nanofluidic behaviors of water and ions in covalent triazine framework (CTF) multilayers. Small, 2020, 16: e1903879.

[9] Wang, R.; Wei, M.; Wang, Y., Secondary growth of covalent organic frameworks (COFs) on porous substrates for fast desalination. Journal of Membrane Science, 2020, 604: 118090.

[10] Song, Y.; Wei, M.; Xu, F.; Wang, Y., Molecular simulations of water transport resistance in polyamide RO membranes: Interfacial and interior contributions. Engineering, 2020, 6: 577-584.

[11] Miao, A.; Wei, M.; Xu, F.; Wang, Y., Influence of membrane hydrophilicity on water permeability: An experimental study bridging simulations. Journal of Membrane Science, 2020, 604: 118087.

[12] Zhou, W.; Wei, M.; Zhang, X.; Xu, F.; Wang, Y., Fast desalination by multilayered covalent organic framework (COF) nanosheets. ACS Applied Materials & Interfaces, 2019, 11: 16847-16854.

[13] Xu, F.; Wei, M.J.; Zhang, X.; Wang, Y., Ion rejection in covalent organic frameworks: Revealing the overlooked effect of in-pore transport. ACS Applied Materials & Interfaces, 2019, 11: 45246-45255.

[14] Xu, F.; Wei, M.; Zhang, X.; Song, Y.; Zhou, W.; Wang, Y., How pore hydrophilicity influences water permeability? Research, 2019, 2019: 10.

[15] Song, Y.; Wei, M.J.; Xu, F.; Wang, Y., Transport mechanism of water molecules passing through polyamide/COF mixed matrix membranes. Physical Chemistry Chemical Physics, 2019, 21: 26591-26597.

[16] Zhang, X.; Zhou, W.; Xu, F.; Wei, M.; Wang, Y., Resistance of water transport in carbon nanotube membranes. Nanoscale, 2018, 10: 13242-13249.

[17] Xu, F.; Song, Y.; Wei, M.; Wang, Y., Water flow through interlayer channels of two-dimensional materials with various hydrophilicities. Journal of Physical Chemistry C, 2018, 122: 15772-15779.

[18] Ying, Y.; He, P.; Wei, M.; Ding, G.; Peng, X., Robust gqds modified thermally reduced graphene oxide membranes for ultrafast and long-term purification of dye-wasted water. Advanced Materials Interfaces, 2017, 4: 1700209.