刘雨讲席教授团队以“低碳非常规水源资源化与水质保障技术平台”为基础，围绕环境生物工程、环境微生物，环境化学和环境功能材料技术，以水污染治理和再生回用为研究对象，致力研发低碳非常规水源资源化与水质保障技术。团队致力培养科研与工程技术人才，热忱欢迎具有环境、生物、材料、化工、计算机等研究背景的学生及博士后加入！

1.国家自然科学基金委青年项目，2024.01-2026.12，主持；

2.中国教育部项目，2025.01-2028.12，主持；

3. 中央高校基本科研业务费，2024.01-2024.12，主持；

4. 企业横向 2023.03-2026.12 主持;

5. 新加坡教育部项目，2019.10-2021.04，主研;

6. 新加坡国家发展部与新加坡可持续发展和环境部项目，2021.04-2021.12，参研;

7. 新加坡教育部项目，2022.03-2023.01，参与;

8.新加坡可持续发展和环境部项目，2022.01-2023.01，参与;

9. 国家自然科学基金重点项目，2015.09-2019.06，参与;

10. 十二五水体污染控制与治理科技重大专项，2015.09-2019.06，参与

1.国家自然科学基金委青年项目，2024.01-2026.12，主持；

2.中国教育部项目，2025.01-2028.12，主持；

3. 中央高校基本科研业务费，2024.01-2024.12，主持；

4. 企业横向 2023.03-2026.12 主持;

5. 新加坡教育部项目，2019.10-2021.04，主研;

6. 新加坡国家发展部与新加坡可持续发展和环境部项目，2021.04-2021.12，参研;

7. 新加坡教育部项目，2022.03-2023.01，参与;

8.新加坡可持续发展和环境部项目，2022.01-2023.01，参与;

9. 国家自然科学基金重点项目，2015.09-2019.06，参与;

10. 十二五水体污染控制与治理科技重大专项，2015.09-2019.06，参与

谷歌学术：https://scholar.google.com.hk/citations?user=nfkPvusAAAAJ&hl=zh-CN

SCI总引用1600余次，h指数21（Google Scholar截至2025年2月）。

1.       Chen X.Y., Zhang X. *., Lu J.F., Jiang Y.S., Liu Y*. (2025). Photoelectric materials-assisted anammoxsystems: Performance, microbial community dynamics, metabolic responses andN-removal pathways. Chemical Engineering Journal, 505:159613.

2.       An L., Zhang X.*., LuJ.F., Wan J.F., Liu Y*. (2025). Valorization of food waste to biofertilizer andcarbon source for denitrification with assistance of plant ash and biochartoward zero solid discharge. Bioresource Technology, 420:132119.

3.       Zhang X., Jiang Y.S., Zhang C.J., Zhang M., Liu Y*. (2024). Capture ofwastewater ammonium by microalgal-bacterial granular sludge: A green-to-greenengineering solution for carbon neutrality. Chemical Engineering Journal,482:148939.

4.       Jiang Y.S.#1, Zhang X.#1, An L., Liu Y*.(2024). A novel biochar-augmented enzymatic process for conversion of foodwaste to biofertilizers: Planting trial with leafy vegetable. BioresourceTechnology, 399, 130554.

5.       Huang X., Liu Y*, Zhao Y, Zhang X, Zhang X.*. Antibiofoulingpolyethersulfone ultrafiltration membranes functionalized with MoS2nanosheets and self-cleaning with hydrogen peroxide. Journal ofEnvironmental Chemical Engineering, 2023, 111571.

6.       Zhang X., An L., Tian J., Ji B., Lu, J., Liu Y. Microalgal capture of carbon dioxide: A carbon sink or source? Bioresource Technology, 2023, 129824.

7.       Zhang X., Lei Z, Ge S, Ji B, Zhang B. Algae and microalgae-bacteria based technology for sustainable wastewatertreatment. Frontiersin Microbiology 2023, 14, 1263955

8.       ZhangX., Ji B. Tian J. Liu Y. Development, performance andmicrobial community analysis of a continuous-flow microalgal-bacterial biofilmphotoreactor for municipal wastewater treatment, Journal of EnvironmentalManagement. 2023, 117770.

9.       ZhangX., Tian J. Jiang Y. Geng Y. Liu Y. Direct Ammonium Recovery from the Permeate of a Pilot-scale Anaerobic MBRby Biochar to Advance Low-Carbon Municipal Wastewater Reclamation and UrbanAgriculture. Science of the Total Environment. 2023, 877: 162872.

10.    Zhang M., Chen Q., Zhang R., Zhang Y., Wang F., He M, Guo X., Yang J. ZhangX. *, Mu J.*. Pyrolysis of Ca/Fe-rich antibiotic fermentation residues intobiochars for efficient phosphate removal/recovery from wastewater: Turninghazardous waste to phosphorous fertilizer. Science of the Total Environment.2023, 869: 161732.

11.    Zhang X., Gu J.,Liu Y. Necessity of direct energy and ammonium recovery for carbon neutralmunicipal wastewater reclamation in an innovative anaerobic MBR-biocharadsorption-reverse osmosis process, Water Research. 2022, 211: 118058. （入选ESI高被引论文）

12.    Zhang X., Lei Z.,Liu Y. Microalgal-bacterial granular sludge for municipal wastewater treatment:From concept to practice. Bioresource Technology. 2022, 354: 127201.

13.    ZhangX., Liu Y. Resource recovery from municipal wastewater: acritical paradigm shift in the post era of activated sludge. BioresourceTechnology. 2022, 363: 127932.

14.    Zhang X., Gu J.,Meng S., Liu Y. Dissolved methane in anaerobic effluent: Emission or recover, Frontiersof Environmental Science & Engineering. 2022, 16 (4):1-3.

15.    ZhangX. Liu Y. Integrated forward osmosis-adsorption process forstrontium-containing water treatment: pre-concentration and solidification.Journal of Hazardous Materials. 2021, 414: 125518.

16.    Zhang X., Liu Y.Circular economy is game-changing municipal wastewater treatment technologytowards energy and carbon neutrality. Chemical Engineering Journal.2021, 429: 132114.

17.    ZhangX., Liu Y. Reverse osmosis concentrate: an essential linkfor closing loop of municipal wastewater reclamation towards urbansustainability. Chemical Engineering Journal. 2021, 421: 127773.

18.    ZhangX., Liu Y. Concurrent removal of Cu(II), Co(II) and Ni(II)from wastewater by nanostructured layered sodium vanadosilicate: competitiveadsorption kinetics and mechanisms. Journal of Environmental ChemicalEngineering. 2021, 9: 105945.

19.    ZhangX., Liu Y. Nanomaterials for radioactive wastewaterdecontamination. Environmental Science: Nano. 2020, 7(4): 1008-1040.

20.    ZhangX., Liu Y. Circular economy-driven ammonium recovery frommunicipal wastewater: State of the art, challenges and solutions forward. BioresourceTechnology. 2021, 334: 125231.

21.    ZhangX., Liu Y. Ultrafast removal of radioactive strontium ionsfrom contaminated wastewater by nanostructured layered sodium vanadosilicatewith high adsorption capacity and selectivity. Journal of HazardousMaterials. 2020, 398: 122907.

22.    ZhangX., Liu Y. Potential toxicity and implication ofhalogenated organics generated in MBR online cleaning with hypochlorite. Journalof Chemical Technology and Biotechnology. 2020, 95(1): 20-26.

23.    ZhangX., Liu Y. Halogenated organics generated during onlinechemical cleaning of MBR: An emerging threat to water supply and public health.Science of the Total Environment. 2019, 656: 547-549.

24.    ZhangX., Zhang M., Liu H., Gu J., Liu Y. Environmentalsustainability: a pressing challenge to biological sewage treatment processes.Current Opinion in Environmental Science and Health. 2019, 12: 1-5.

25.    Zhang X., Gu P.,Liu Y. Decontamination of radioactive wastewater: state of the art andchallenges forward. Chemosphere. 2019, 215: 543-553.（2020年5月入选ESI高被引）

26.    ZhangX., Gu P., Zhang G., et al. Enhanced removal of iodide ionsby nano Cu2O/Cu modified activated carbon from simulated wastewaterwith improved countercurrent two-stage adsorption, Science of the TotalEnvironment. 2018, 626: 612-620.

27.    ZhangX., Gu P, Zhang G., et al. Large-scale synthesis of nano Cu2O/Cu–Cfor iodide removal in a novel countercurrent two-stage adsorption and membraneseparator system. Journal of Radioanalytical and Nuclear Chemistry.2018, 317.2: 959-968.

28.    ZhangX., Gu P., Zhang G., et al. Efficient adsorption ofradioactive iodide ion from simulated wastewater by nano Cu2O/Cumodified activated carbon. Chemical Engineering Journal. 2017, 322:129-139.

29.    刘阳、黄旋林、张新波、张晓媛*、南琦悦.高级氧化技术应用于有机物膜污染控制与膜清洗的研究进展.中国给水排水.2024.

30.    张晓媛,张萌,刘雨.通向闭路水循环的未来市政污水处理新模式.科学通报.2020, 65(14): 1358-1367.

31.    张晓媛,顾平,张光辉.纳米材料在放射性废水处理中的吸附应用.环境化学.2017, 35(10): 2162-2171.

32.    玮达, 张晓媛*, 顾平, 张光辉. 吸附法处理水体中放射性碘核素研究进展.水处理技术.2017, 43(9): 6-12.

33.     Tong C., Hu G.S., Ji B., Li A.J., Zhang X., Liu Y. (2025). Light intensity-regulated glycogen synthesisand pollutant removal in microalgal-bacterial granular sludge for wastewatertreatment. Water Research, 271:122988.

34.    Shi, Y., Ji, B., Li, A., Zhang, X., Liu, Y. (2024). Enhancing theperformance of microalgal-bacterial systems with sodium bicarbonate: A stepforward to carbon neutrality of municipal wastewater treatment. Water Research,266, 122345.

35.    Shi Y.T., Xu C.X., Ji B., LiA.J., Zhang X., Liu Y. (2024). Microalgal-bacterial granular sludge canremove complex organics from municipal wastewater with algae-bacteriainteractions. Communications Earth & Environment, 5(1):347.

36.    Chen B., Shen Y., Zhang X., Ji B. Influencemechanism of sludge bed position on microalgal-bacterial granular sludgeprocess. Science of The Total Environment, 2024. 907: 168118.

37.    Jiang Y, Zhang X., Poh L S, Ng W J. Effect of free nitrous acid on extracellularpolymeric substances production and membrane fouling in a nitritation membranebioreactor. Chemosphere, 2023. 139913.

38.    Geng YK, Gu J, Zhang X, Lim ZK, Jiang Y, Zhang M, Zhou Y, Liu Y. Multi-parametercontrol-based operation strategy for mainstream deammonification in anintegrated anaerobic biofilm reactor-step feed MBR. Chemosphere, 2023. 333: 138941.

39.    Yang G., Wang H., Zhang X., Ji B.Microalgal-bacterial granular sludge under constant dark and weak lightconditions: Morphology, performance and microbial community. Algal Research,2023, 71: 103050

40.    Shi Y., Ji B., Zhang X., Liu Y. Auto-floating oxygenicmicroalgal-bacterial granular sludge. Science of The Total Environment.2023, 856: 159175.

41.    Song S., Jiang M., Liu H., Yao J., Zhang X., Dai X.Base-catalyzed hydrolysis of spectinomycin in aqueous solutions: Kinetics andmechanisms. Chemosphere. 2022, 312: 137243.

42.    Han F., Liu S., Wang K., Zhang X.Enhanced Performance of Membrane Distillation Using Surface Heating Process. Membranes.2021, 11(11): 866.

43.    Bai X., Lv L., Zhang X., Hua Z. Synthesis and photocatalytic properties of palladium-loadedthree-dimensional flower-like anatase TiO2 with dominant {001} facets.Journal of Colloid and Interface Science.2016, 467: 1-9.

44.    Hua Z., Zhang X., Bai Xue, etal. Nitrogen-doped perovskite-type La2Ti2O7decorated on graphene composites exhibiting efficient photocatalytic activitytoward bisphenol A in water. Journal ofColloid & Interface Science. 2015, 450: 45-53.

45.    Bai X., Zhang X., Hua Z., etal. Uniformly distributed anatase TiO2, nanoparticles on graphene:Synthesis, characterization, and photocatalytic application. Journal of Alloys & Compounds. 2014,599(3): 10-18.

46.    Hua Z., Zhang X., Bai X., etal. Self-assembly of different graphene-modified morphologies of TiO2:nanoparticle, nanorod and nanowire for bisphenol-A photodecomposition. IET Micro & Nano Letters. 2014, 9(6):370-375.

47.    Bai X., Huang X., Zhang X., Hua Z., et al. TiO2-graphene nanoparticlebased electrochemical sensor for the bimodal-response detection of4-chlorophenol. RSC Advances. 2014, 4(26):13461-13468.

48.    Hua Z., Ma W., Bai X., Feng R., Liu Y., Zhang X., Dai Z. Heterogeneous Fenton degradation of bisphenol Acatalyzed by efficient adsorptive Fe3O4/GO nanocomposites. Environmental Science and Pollution Research.2014, 21(12): 7737-7745.

49.    Hua Z., Dai Z., Bai X., Pan W., ZhangX., Ma W., Gu L. Zero-valent nanophase iron and nitrogen co-modifiedtitania nanotube arrays: Synthesis, characterization, and enhancedvisible-light photocatalytic performance. MaterialsScience in Semiconductor Processing. 2014, 26: 410-418.

50.    李晓媛, 顾平, 张晓媛, 等. 新型二级逆流吸附工艺处理模拟含碘放射性废水. 环境工程学报. 2018, 12(2): 468-474.

51.    叶沁弋，龚喜平，张晓媛，季斌. 污水处理系统中藻/菌和藻-菌共生体胞外多糖研究进展.中国给水排水.2024.