Wen Ma

Ph. D.

Professeure adjointe

Coordonnées

Diplômes

• Chercheuse postdoctorale (2022-2023), Bourse Claire-Deschênes, Université de Sherbrooke, Canada
• Chercheuse postdoctorale (2019-2021), Yale University, USA
• Ph. D. en génie civil, Concordia University (2018), Canada
• M. Sc. en génie environnemental (2013), University of Science and Technology Beijing, Chine
• B. Sc. en génie environnemental (2010), University of Science and Technology Beijing, Chine

Communications scientifiques

1. Ma, W., Patel, S., Marcos, M. Wang, X., Zhou, X., Pan, W., Shin, Y. U., Villagran, D., *Elimelech, M. (2024). Rapid, selective, and chemical-free removal of dissolved silica from water via electrosorption: feasibility and mechanisms. Environ. Sci. Technol., 58, 947–959.
2. Wang, X., Wu, X., Ma, W., Zhang, S., Huang, D., Winter, L. R., Kim, J., *Elimelech, M. (2023). Free-standing membrane incorporating single-atom catalysts for ultrafast electroreduction of low-concentration nitrate. Proc. Natl. Acad. Sci., 120, e2217703120.
3. Yang, L., Zhang, X., Ma, W., *Ye, Z., et al. (2023). Trimethylamine N-oxide-derived zwitterionic polyamide thin-film composite nanofiltration membranes with enhanced anti-dye deposition ability for efficient dye separation and recovery. J. Membr. Sci., 665, 121083.
4. Ma, W., Sun, M., Chu, C., Kim, J., *Elimelech, M. (2022). Atomically dispersed copper on reactive membrane sustains peroxide activation for water purification. Environ. Sci. Technol., 56, 8733-8745.
5. Ma, W., Lu, X., Guan, Y., *Elimelech, M. (2021). Joule-heated layered double hydroxide (LDH) sponge for fast and efficient silica removal from water. Environ. Sci. Technol., 55, 16130–16142.
6. Zhao, Y., *Sun, M., Wang, X., Wang, C., Lu, D., Ma, W., Kube, S., Ma, J., *Elimelech, M. (2021). Janus electrocatalytic flow-through membrane enables ultrafast singlet oxygen production. Nature Comm., 11, 1-10.
7. Sun, M., Wang, X., Zhao, Y., Ma, W., Hedtke, T., Winter, L., Kim, J., *Elimelech, M. (2021). Janus electrocatalytic flow-through membrane enables ultrafast singlet oxygen production. ACS ES&T Engineering, 1, 725-752.
8. Chen, T., Ma, W., Lee, Jassby, D., Rahaman M. S. (2021). Development of robust and superamphiphobic membranes using reduced graphene oxide (rGO)/PVDF-HFP nanocomposite mats for membrane distillation, Environ. Sci. Nano, 8, 2883-2893.
9. Ma, W., Chen, T., Yang, L., Ye, Z., Tufenkji, N., *Rahaman, M.S. (2020). Engineering polymer forest on membranes: tuning density, thickness, and architecture for biofouling control. ACS Appl. Polym. Mater., 2, 4592-4603.
10. Wang, X., *Sun, M., Zhao, Y., Wang, C., Ma, W., Wong, M, *Elimelech, M. (2020). In situ electrochemical generation of reactive chlorine species for efficient ultrafiltration membrane self-cleaning, Environ. Sci. Technol., 54, 6997-7007.
11. Ma, W., Chen, T., Nannni, S., Yang, L., Ye, Zhi., *Rahaman, M. S. (2019). Zwitterion functionalized graphene oxide incorporated membrane with improved antifouling properties. Langmuir, 35, 1513-1525.
12. Tabrizian, P., Ma, W., Bakr, A., *Rahaman, M. S. (2018). pH-sensitive and magnetically separable Fe/Cu bimetallic nanoparticles supported by graphene oxide (GO) for high-efficiency removal of tetracyclines. J. Colloid Interface Sci., 501, 330-340. (Co-first author).
13. Ma, W., Panecka, M., Tufenkji, N., *Rahaman, M. S. (2018). Bacteriophage-based strategies for biofouling control in ultrafiltration: in situ biofouling mitigation, biocidal additives and biofilm cleanser. J. Colloid Interface Sci., 523, 254-265.