联系方式

 电子邮箱：liweiyi@gxnu.edu.cn

 办公地址：广西师范大学育才校区化学与药学学院办公楼219

 基本介绍

 教育：

 2004.09-2009.12，辛辛那提大学（美国）化学工程系，化学工程，博士

 2000.09-2003.06，清华大学化学工程系，化学工程，硕士

 1996.09-2000.06，天津大学化学工程系，化学工程，学士

 任职：

 2024.01-至今，高层次人才引进专任教师，广西师范大学化学与药学学院

 2020.07-2024.01，副教授（研究岗，博士生导师），南方科技大学环境科学与工程学院

 2017.07-2020.06，助理教授（研究岗，硕士生导师），南方科技大学环境科学与工程学院

 2010.01-2017.06，博士后研究员，南洋理工大学（新加坡）新加坡膜技术中心

 2004.09-2009.12，科研和教学助理，辛辛那提大学（美国）化学工程系

 2003.09-2004.06，科研助理，清华大学化学工程系

 研究方向

 基于天然聚合物的分离膜绿色制备；

 以膜蒸馏和正渗透为代表的新型膜分离技术开发和优化；

 基于光学相干层析的新型成膜和膜分离过程原位表征技术；

 成膜和膜分离过程的数值模型建立和分析。

讲授课程

《化工基础》

论著专利

代表性论文（一作和通讯）：

1. W. Li, J. Li*, T. Chen, C. Chen, Study on Nanofiltration for Purifying Fructo-oligosaccharides I. Operation Modes, Journal of Membrane Science (IF 2022: 9.5), 245 (2004) 123-129, DOI: 10.1016/J.MEMSCI.2004.07.021.

2. W. Li*, J. Li, T. Chen, Z. Zhao, C. Chen, Study on Nanofiltration for Purifying Fructo-oligosaccharides II. Extended Pore Model, Journal of Membrane Science (IF 2022: 9.5), 258 (2005) 8-15, DOI: 10.1016/J.MEMSCI.2004.06.017.

3. W. Li, C. Duclos-Orsello, C. C. Ho*, Theoretical Analysis of the Effects of Asymmetric Membrane Structure on Fouling During Microfiltration, AIChEJournal (IF 2022: 3.7), 55 (2009) 1434-1446, DOI: 10.1002/AIC.11763.

4. W. Li, Y. Gao, C. Y. Tang*, Network Modeling for Studying the Effect of Support Structure on Internal Concentration Polarization During Forward Osmosis: Model Development and Theoretical Analysis, Journal of Membrane Science (IF 2022: 9.5), 379 (2011) 307-321, DOI: 10.1016/J.MEMSCI.2011.05.074.

5. D. Xiao#, W. Li#, S. R. Chou, R. Wang, C. Y. Tang*, A Modeling Investigation on Optimizing the Design of Forward Osmosis Hollow Fiber Modules, Journal of Membrane Science (IF 2022: 9.5), 392 (2012) 76-87, DOI: 10.1016/J.MEMSCI.2011.12.006.

6. W. Li, W. B. Krantz, E. R. Cornelissen, J. W. Post, A. R. D. Verliefde, C. Y. Tang*, A Novel Hybrid Process of Reverse Electrodialysis and Reverse Osmosis for Low Energy Seawater Desalination and Brine Management, Applied Energy (IF 2022: 11.2), 104 (2013) 592-602, DOI: 10.1016/J.APENERGY.2012.11.064.

7. Y. Gao, S. Haavisto, C. Y. Tang, J. Salmela*, W. Li*, Characterization of Fluid Dynamics in Spacer-filled Channels for Membrane Filtrations Using Doppler Optical Coherence Tomography, Journal of Membrane Science (IF 2022: 9.5), 448 (2013) 198-208, DOI: 10.1016/J.MEMSCI.2013.08.011.

8. Y. Gao, S. Haavisto, W. Li*, C. Y. Tang, J. Salmela*, A. G. Fane, Novel Approach to Characterizing the Growth of a Fouling Layer during Membrane Filtration via Optical Coherence Tomography, Environmental Science & Technology (IF 2021: 11.4), 48 (2014) 14273-14281, DOI: 10.1021/ES503326Y.  

9. W. Li, K. K. Chen, Y. Wang, W. B. Krantz, A. G. Fane, C. Y. Tang*, A Conceptual Design of Spacers with Hairy Structures for Membrane Filtration, Journal of Membrane Science (IF 2022: 9.5), 510 (2016) 314-325, DOI: 10.1016/J.MEMSCI.2016.03.021.  

10. W. Li*, X. Liu, Y. Wang, T. H. Chong, C. Y. Tang, A. G. Fane, Analyzing the Evolution of Membrane Fouling via a Novel Method Based on 3D Optical Coherence Tomography Imaging, Environmental Science & Technology (IF 2022: 11.4), 50 (2016) 6930-6939, DOI: 10.1021/ACS.EST.6B00418.  

11. X. Liu, W. Li*, T. H. Chong*, A. G. Fane, Effects of Spacer Orientations on the Cake Formation During Membrane Fouling: Quantitative Analysis Based on 3D OCT Imaging, Water Research (IF 2022: 12.8), 110 (2017) 1-14, DOI: 10.1016/J.WATRES.2016.12.002.

12. Q. Han, W. Li*, T. T. Trinh, X. Liu, J. W. Chew*, A Network-Based Approach to Interpreting Pore Blockage and Cake Filtration During Membrane Fouling, Journal of Membrane Science (IF 2022: 9.5) 528 (2017) 112-125, DOI: 10.1016/J.MEMSCI.2017.01.026.

13. T. T. Trinh, W. Li*, Q. Han, X. Liu, A. G. Fane, J. W. Chew*, Analyzing External and Internal Membrane Fouling by Oil Emulsions via 3D Optical Coherence Tomography, Journal of Membrane Science (IF 2022: 9.5), 548 (2018) 632-640, DOI: 10.1016/J.MEMSCI.2017.10.043.  

14. Z. Li, X. Liu, B. Deng, W. Li*, Effects of Membrane Morphology on the Rejection of Oil Droplets: Theoretical Analysis Based on Network Modeling, Journal of Membrane Science (IF 2022: 9.5), 588 (2019) 117198, DOI: 10.1016/J.MEMSCI.2019.117198.

15. W. Li*, X. Liu*, Z. Li, A. G. Fane, B. Deng, Unraveling the Film-Formation Kinetics during Interfacial Polymerization via Low Coherence Interferometry, AIChE Journal (IF 2022: 3.7), 66 (2020) e16863, DOI: 10.1002/aic.16863.

16. X. Liu#, G. Chen#, G. Tu, Z. Li, B. Deng, W. Li*, Membrane Fouling by Clay Suspensions during NF-Like Forward Osmosis: Characterization via Optical Coherence Tomography, Journal of Membrane Science (IF 2022: 9.5), 602 (2020) 117965, DOI: 10.1016/j.memsci.2020.117965.

17. X. Liu, D. Du, G. Tu, W. Li*, Unraveling Effects of Dean Vortices on Membrane Fouling in A Sinusoidally Curved Channel, Journal of Membrane Science (IF 2022: 9.5), 603 (2020) 118008, DOI: 10.1016/j.memsci.2020.118008.

18. S. Shi#, X. Liu#, W. Li*, Z. Li, G. Tu, B. Deng, C. Liu, Tuning the Biodegradability of Chitosan Membranes: Characterization and Conceptual Design, ACS Sustainable Chemistry & Engineering (IF 2022: 8.4), 8 (2020) 14484-14492, DOI: 10.1021/acssuschemeng.0c04585.  

19. J. Liu, Z. Li, Y. Wang, X. Liu, G. Tu, W. Li*, Analyzing Scaling Behavior of Calcium Sulfate in Membrane Distillation via Optical Coherence Tomography, Water Research (IF 2022: 12.8), 191 (2021) 116809, DOI: 10.1016/j.watres.2021.116809.

20. J. Liu, Y. Wang, Z. Li, X. Liu, W. Li*, Flux Decline Induced by Scaling of Calcium Sulfate in Membrane Distillation: Theoretical Analysis on the Role of Different Mechanisms, Journal of Membrane Science (IF 2022: 9.5), 628 (2021) 119257, DOI: 10.1016/j.memsci.2021.119257.

21. G. Tu, X. Liu, Z. Li, S. Li, J. Liu, W. Li*, Characterizing Gelation Kinetics of Chitosan Dissolved in An Alkali/Urea Aqueous Solution: Mechanisms Accounting for the Morphological Development, Journal of Membrane Science (IF 2022: 9.5), 635 (2021) 119516, DOI: 10.1016/j.memsci.2021.119516.

22. G. Tu#, S. Li#, Y. Han, Z. Li, X. Liu, W. Li*, Fabrication of Chitosan Membranes via Aqueous Phase Separation: Comparing the Use of Acidic and Alkaline Dope Solutions, Journal of Membrane Science (IF 2022: 9.5), 646 (2022) 120256, DOI: 10.1016/j.memsci.2022.120256.

23. J. Liu#, Y. Wang#, S. Li, Z. Li, X. Liu, W. Li*, Insights into the Wetting Phenomenon Induced by Scaling of Calcium Sulfate in Membrane Distillation, Water Research (IF 2022: 12.8), 216 (2022) 118282, DOI: 10.1016/j.watres.2022.118282.  

24. X. Liu, Z. Li, Z. Zou, J. Liu, W. Li*, Whey Recovery Using Nanofiltration-Like Forward Osmosis: Optical Coherence Tomography Based Approach to Understanding Fouling Behavior, ACS ES&T Water (IF 2022: 5.3), 3 (2022) 2c00254, DOI: 10.1021/acsestwater.2c00254.

25. J. Liu#, Y. Wang#, Z. Li, X. Liu, W. Li*, Unraveling Relative Roles of Bulk Precipitation and Surface Growth in Developing A Scaling Layer in Membrane Distillation, Desalination (IF 2022: 9.9), 544 (2022) 116133, DOI: 10.1016/j.desal.2022.116133.

26. Z. Li#, Q. Han#, F. Sun, S. Li, J. Liu, X. Liu, W. Li*, Unraveling Effects of Multivalent Salts on Internal Fouling by Proteins in NF-Like Forward Osmosis, Journal of Membrane Science (IF 2022: 9.5), 668 (2023) 121236, DOI: 10.1016/j.memsci.2022.121236.

27. K. Chen, W. Li*, J. Chew*, Unraveling Distinct FO Performance of NF-Like Membranes Fabricated by Deposition of Bilayers Containing Polyamines with Minor Structural Differences, ACS ES&T Water (IF 2022: 5.3), 3 (2022) 2c00558, DOI: 10.1021/acsestwater.2c00558.

28. Y. Wang, J. Liu, Z. Li, X. Liu, W. Li*, Revisiting Scaling of Calcium Sulfate in Membrane Distillation: Uncertainty of Crystal-Membrane Interactions, Water Research (IF 2022: 12.8), 239 (2023) 120060, DOI: 10.1016/j.watres.2023.120060.

29. X. Liu#*, Q. Han#, Z. Zou, D. Wang, D. Du, Z. Li, W. Li*, Sustainable Fabrication of Chitosan Membranes with Optimized Performance for Ultrafiltration, Separation and Purification Technology (IF 2022: 8.6), 330 (2024) 125276, DOI: 10.1016/j.seppur.2023.125276.

30. C. Zhang, Y. Qu, J. Liu, Q. Chen, M. Shao, W. Li*, Q. Xu*, Unraveling the Role of NaCl on Microfiltration Fouling: Insights from In Situ Analysis of Dynamic Interfacial Behaviors, Journal of Membrane Science (IF 2022: 9.5), 690 (2024) 122223, DOI: 10.1016/j.memsci.2023.122223.

31. S. Li, K. Zhang, Z. Li, J. Liu, Y. Han, X. Liu, W. Li*, Ethanol-Regulated Gelation of Chitosan Dissolved in an Alkali/Urea Aqueous Solution: Morphological Characteristics for Capturing Particulate Species, Separation and Purification Technology (IF 2022: 8.6), 332 (2024) 125814, DOI: 10.1016/j.seppur.2023.125814.

32. S. Li#, K. Zhang#, Z. Li, J. Liu, X. Liu, W. Li*, Spatiotemporally Resolved Characterization for Analyzing the Interfacial Behaviors of Gelation in Aqueous Phase Separation, Journal of Membrane Science (IF 2022: 9.5), 692 (2024) 122299, DOI: 10.1016/j.memsci.2023.122299.

代表性专利：

1. W. Li, C. Y. Tang, Y. Wang, W. B. Krantz, A. G. Fane, et al., Spacer for a Membrane Module (美国专利, Patent Number: US10166513B2).

2. 刘鑫, 李炜怡, 邓保林, 王沁语, 王莅, 赵乾亮, 一种利用光学相干层析技术测定分离膜临界通量和阈通量的方法 (PCT Number: PSUENV2018031，授权).

3. 李炜怡, 刘鑫, 李卓, 刘格, 王莅, 一种通过光学相干层析成像技术表征界面聚合成膜动力学的装置和方法 (PCT Number: PSUENV2018039，授权).

4. 李炜怡，涂国权，刘鑫，刘格，杜东宇，一种应用聚电解质调控界面聚合的复合薄膜制备方法 (PCT Number: PSUENV2019015，授权).

科研项目

1. 创新性水处理先进环境材料研究 (第二核心), 广东省“珠江人才计划”引进创新创业团队 (grant no. 2017ZT07Z479, RMB 20,000,000), 2018-2023.

2. 基于稳定性理论的高性能分离膜结构优化和制备方法研究 (主持人), 中国国家自然科学基金 (面上项目, grant no. 21878140, RMB 600,000), 2019-2022.  

3. 基于可再生资源的环境友好型分离膜制备技术探索（主持人），广东省普通高校科研项目（特色创新类项目, grant no. 2019KTSCX158, RMB 80,000）, 2020-2022.

4. 基于膜分离的海水淡化和污水处理集成系统开发（主持人），深圳市基础研究专项（自然科学基金）基础研究面上项目（grant no. JCYJ20190809172011680, RMB 300,000），2020-2022.

5. Integration of Advanced Membrane and System Technology for Enhanced Water Supply and Resource Recovery (Co-PI), Project Granted by the Joint Center at MIT and SUSTech (RMB 5,100,000), 2018-2021.

6. Development of Versatile, Optimized Membrane Cascades for the Continuous Purification of Nanoparticulate Active Pharmaceutical Ingredient (Co-PI), GSK-EDB Trust Fund (SD 700,000), 2014-2017.

7. Improved Recovery and Energy Efficient Reverse Osmosis Process (Co-PI), Singapore National Research Foundation (Environmental & Water Technologies Strategic Research Programme, SD 2,200,000).

指导学生情况

欢迎热爱化学工程和膜分离技术的同学加入团队！