一、个人简介

杨梦婷，女，籍贯湖南，博士生导师，深圳大学“荔园优秀青年教师”。2008 年毕业于东北林业大学并获林产化工专业学士学位， 2009-2013 年在香港科技大学工学院学习获环境工程硕士、博士学位，2013.10-2014.10在香港科技大学土木与环境工程系从事博士后研究，现为深圳大学化学与环境工程学院研究员。深圳市海外高层次人才、深圳市南山区领航人才、深圳市高层次人才（后备级）称号获得者。研究方向为新型污染物的分析检测，毒性及控制；饮用水和再生水安全评价；消毒副产物。作为项目负责人，主持了国家自然科学基金项目、广东省自然科学基金项目、深圳市学科布局项目等9项科研项目。发表SCI论文四十余篇 (其中以通讯/第一作者发表顶级期刊Environmental Science & Technology 6篇，Water Research 4篇；两篇入选ESI高被引论文)，被引用次数两千余次，单篇最高被引用次数400余次。2024年获评2022年度 Environ. Sci. Technol.优秀审稿人奖（ES&T Excellence in Review Award 2022），担任期刊Environ. Sci. Technol. 特刊 "Celebrating the 50th anniversary of the discovery of drinking water disinfection byproducts"的Guest Editor，“水消毒与消毒副产物研讨会工作组”核心组员及秘书处成员，Environmental Science & Technology, Water Research, Environment International, Science of the Total Environment 等学术期刊审稿人。

二、联系方式

办公室：深圳大学丽湖校区化学与环境工程学院B1-402

Email: yangmt@szu.edu.cn

电 话: +86-139 2843 2825

三、科研项目

1. 国家自然科学基金面上项目，消毒后再生水中高毒性贡献卤代消毒副产物的识别及生成机制研究，项目编号：51978405，2020.01–2023.12，70.84万元，项目主持人

2. 国家自然科学基金青年基金项目，受污水有机物影响的饮用水中新兴溴代含氮消毒副产物的生成机理及毒性研究，项目编号：51508335，2016.01–2018.12，23.68万元，项目主持人

3. 广东省自然科学基金项目，珠三角地区饮用水中芳香族卤代消毒副产物的生成研究和毒性评价，项目编号：2016A030310061，2016.06–2019.06，10万元，项目主持人

4. 供水系统中高风险消毒副产物的生成规律及去除研究，深圳市学科布局项目，项目编号：JCYJ20170818091859147，2018.04–2021.04，300万元，项目主持人

5. 深圳市海外高层次人才科研启动项目，2018.01–2020.12，270万元，项目主持人

6. 深圳市稳定支持项目，2023.12-2025.11，20231121115436001，60万元，项目主持人

7. 深圳市基础研究项目，新兴芳香族类消毒副产物在深圳市饮用水中的生成研究和毒性评价，项目编号：JCYJ20150525092940987，2016.01–2017.12，30万元，项目主持人

8. 深圳市下一代饮用水源水质环境基准研究项目-典型水厂消毒副产物及前体物研究（横向项目），2022/03-2022/11，9.9万，主持

9. 深圳大学新引进教师科研启动项目，深圳市饮用水中消毒副产物卤代苯酚的生成调查和毒性评价，项目编号：201523，2015.06–2017.05，6万元，项目主持人

9. 国家自然科学基金专项项目，环境工程青年人才发展论坛，项目编号：52242001，2022.07–2022.12，10万元，参与

10. 国家自然科学基金青年基金项目，污水生物强化除磷体系中菌群网络关系及其环境响应机理的微生物组学研究，项目编号：51608329，2017.01–2019.12，23.88万元，参与

11. 国家自然科学基金青年基金项目，城市道路积尘颗粒理化性质受车辆交通特征影响规律及其吸附石油烃机制研究，项目编号：41601510，参与

12. 国家自然科学基金应急管理项目，氟离子掺杂钛基金属氧化物电极降解水体中全氟化合物的机理研究，项目编号：21547011，参与

13. 广东省教育厅2022年广东高校科研项目(自然科学类)，重点领域专项-科技服务乡村振兴，基于稳定同位素技术的广东典型沿海农村流域氮污染研究，20万元，参加

14. 深圳大学交叉学科团队项目，健康与节能环保材料，2018.1–2022.12，300万元，参与

15. 深圳市基础研究项目，新型三维孔结构聚合物羟基磷灰石骨骼材料的制备及其生物毒性评价，参与

16. 香港Environment and Conservation Fund资助项目，ECF Project 73/2014，Optimization of Dechlorination to Generate Greener Chlorinated Saline Sewage Effluents，2014.12–2016.12，49.47万元港币，第二项目负责人

17. 香港Research Grant Council资助项目，622808，Identification, Formation and Toxicity of Polar Brominated Disinfection Byproducts from Chlorination of Saline Sewage Effluents，2008.12–2011.12，66.35万元港币，参与

18. 香港Research Grant Council资助项目，623409，Formation of Polar Iodinated DBPs and Control Strategies for Iodinated/Brominated DBPs during Chlorination of Saline Sewage Effluents，2009.12–2012.12，79.92万元港币，参与

四、发表论文（*通讯作者）

通讯作者/第一作者论文：

[1] Liu, Y., Gao, J., Zhu, Q., Zhou, X., Chu, W., Huang, J., Liu, C., Yang, B., Yang, M.*. (2023). Zerovalent iron/Cu combined degradation of halogenated disinfection byproducts and quantitative structure–activity relationship modeling. Environmental Science & Technology, 57, 11241−11250.

[2] Chen, Y., Liang, Q., Liang, W., Li, W., Liu, Y., Guo, K., Yang, B., Zhao, X., Yang, M.* (2023). Identification of toxicity forcing agents from individual aliphatic and aromatic disinfection byproducts formed in drinking water: Implications and limitations. Environmental Science & Technology, 57, 1366–1377.

[3] Zhang, Z., Zhu, Q., Huang, C., Yang, M.*, Li, J., Chen, Y., Yang, B., Zhao, X. (2020). Comparative cytotoxicity of halogenated aromatic DBPs and implications of the corresponding developed QSAR model to toxicity mechanisms of those DBPs: Binding interactions between aromatic DBPs and catalase play an important role. Water Research, 170, 115283.

[4] Yang, J., Li, W., Zhu, Q., Yang, M.*, Li, J., Zhang, J., Yang, B., Zhao, X. (2019). Identification, formation and predicted toxicity of halogenated DBPs derived from tannic acid and its biodegradation products. Environmental Science & Technology, 53, 13019−13030.

[5] Yang, M., Zhang, X.*, Liang, Q., Yang, B. (2019). Application of (LC/) MS/MS precursor ion scan for evaluating the occurrence, formation and control of polar halogenated DBPs in disinfected waters: A review. Water Research, 158, 322-337.

[6] Bu, Y., Song, M., Han, J., Zhang, Z., Chen, B.*, Zhang, X., Yang, M.* (2018). A facile and green pretreatment method for nonionic total organic halogen (NTOX) analysis in water–Step II. Using photolysis to convert NTOX completely into halides. Water Research, 145, 579-587.

[7] Li, Y., Yang, M.*, Zhang, X.*, Jiang, J., Liu, J., Yau, C. F., Graham, N. J. D., Li, X. (2017). Two-step chlorination: A new approach to disinfection of a primary sewage effluent. Water Research, 108, 339-347.

[8] Yang, M., Liu, J., Zhang, X.*, Richardson, S. D.* (2015). Comparative toxicity of chlorinated saline and freshwater wastewater effluents to marine organisms. Environmental Science & Technology, 49(24), 14475-14483.

[9] Yang, M., Zhang, X.* (2014). Halopyrroles: a new group of highly toxic disinfection byproducts formed in chlorinated saline wastewater. Environmental Science & Technology, 48(20), 11846-11852.

[10] Yang, M., Zhang, X.* (2013). Comparative developmental toxicity of new aromatic halogenated DBPs in a chlorinated saline sewage effluent to the marine polychaete Platynereis dumerilii. Environmental Science & Technology, 47(19), 10868-10876.

[11] He, G., Zhao, J., Liu, Y., Wang, D., Sheng, Z., Zhou, Q., Pan, Y.*, Yang, M.* (2025). Advances in environmental analysis of high molecular weight disinfection byproducts. Analytical and Bioanalytical Chemistry, 417, 513–534.

[12] Gao, J., Lai, F. Y., Postigo, C., Yang, M.* (2024). Advances in the analysis of disinfection by-products with mass spectrometry: Sample preparation and target/non-target screening. TrAC Trends in Analytical Chemistry, 173, 117621.

[13] Liang, W., Zhang, Z., Zhu, Q., Han, Z., Huang, C., Liang, X., Yang, M.* (2023). Molecular interactions between bovine serum albumin (BSA) and trihalophenol: Insights from spectroscopic, calorimetric and molecular modeling studies. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 287, 122054.

[14] Zhang, Z., Zhu, Q., Liang, W., Han, Z., Huang, C., Liu, A., Lu, Y., Ma, J., Yang, M.* (2022). Investigation on detoxication effects of 2-hydroxypropyl-β-cyclodextrin over two halogenated aromatic DBPs 2, 4, 6-trichlorophenol and 2, 4, 6-tribromophenol binding with human serum albumin. Food Chemistry, 382, 132349.

[15] Gao, J., Li, L., Duan, L., Yang, M.*, Zhou, X., Zheng, Q., Ou, Y., Li, Z., Lai, F. Y. (2022). Exploring antibiotic consumption between urban and sub-urban catchments using both parent drugs and related metabolites in wastewater-based epidemiology. Science of The Total Environment, 827, 154171.

[16] Liang, Q., Gao, J., Guo, D., Huang, J., Zhang, J., Li, J., Yang, B., Chen, B., Wu, Q., Yang, M.* (2021). Species and formation characteristics of halogenated DBPs in chloramination of tannic acid after biodegradation. Science of The Total Environment, 781, 146690.

[17] Guo, Q., Zhan, Y., Li, Y., Hong, N., Guan, Y., Zhang, Z., Yang, B., Meng, F., Yang, M.*, Liu, A.* (2020). Investigating toxicity of urban road deposited sediments using Chinese hamster ovary cells and Chlorella Pyrenoidosa. Chemosphere, 245, 125634.

[18] Pan, L., Zhang, X.*, Yang, M.*, Han, J., Jiang, J., Li, W., Yang, B., Li, X. (2019). Effects of dechlorination conditions on the developmental toxicity of a chlorinated saline primary sewage effluent: Excessive dechlorination is better than not enough. Science of The Total Environment, 692, 117-126.

[19] Hong, N., Liu, A.*, Zhu, P., Zhan, Y., Yang, M.*, Zhang, Z., Yang, B., Guan, Y. (2019). Comparative toxicity of organic mixture attached to road deposited sediments: Inadequacy of conventionally using individual pollutants to assess comprehensive hazard effects. Ecotoxicology and Environmental Safety, 180, 357-365.

[20] Zhang, Z., Yang, M.*, Yi, J., Zhu, Q., Huang, C., Chen, Y., Li, J., Yang, B., Zhao, X. (2019). Comprehensive insights into the interactions of two emerging bromophenolic DBPs with human serum albumin by multispectroscopy and molecular docking. ACS Omega, 4(1), 563-572.

[21] Yang, M., Liberatore, H. K., Zhang, X.* (2019). Current methods for analyzing drinking water disinfection byproducts. Current Opinion in Environmental Science & Health, 7, 98-107.

[22] Li, Y., Zhang, X.*, Yang, M.*, Liu, J., Li, W., Graham, N. J. D., Li, X., Yang, B. (2017). Three-step effluent chlorination increases disinfection efficiency and reduces DBP formation and toxicity. Chemosphere, 168, 1302-1308.

[23] Yang, M.*, Zhang, X.* (2016). Current trends in the analysis and identification of emerging disinfection byproducts. Trends in Environmental Analytical Chemistry, 10, 24-34.

[24] 梁雯洁，蚁嘉颖，张振轩*，杨梦婷* (2023)．溴代苯酚与牛血清白蛋白的相互作用研究．化学试剂, 45(01), 37–45

[25] 刘安, 李玉清, 郭奇聪, 程芹, 詹宇婷, 洪念, 杨梦婷* (2020).深圳典型道路原位模拟雨水生物毒性评价分析.深圳大学学报(理工版), 37(04), 355−361.

共同作者论文：

[1] Chen, X., Ge, Y., Shi, W., Yang, M., Zhou, Q., Pan, Y.* (2024). Estro-Androgenic Disrupting Effects of Halogenated Disinfection Byproducts: A Comprehensive Evaluation and Comparison. Environmental Science & Technology, https://pubs.acs.org/doi/abs/10.1021/acs.est.4c07223.

[2] Li, Y., Liu, Y., Zhan, Y., Zhang, Y., Zhao, X., Yang, M., Ruan, W., Zhang, Z.*, Liang, X.*, Ma, J.* (2024). Peracetic acid-induced nanoengineering of Fe-based metallic glass ribbon in application of efficient drinking water treatment. Applied Catalysis B: Environment and Energy, 355, 124161.

[3] Wu, Y., Wei, W., Luo, J., Pan, Y.*, Yang, M., Hua, M., Chu, W., Shuang, C., Li, A. (2022). Comparative Toxicity Analyses from Different Endpoints: Are New Cyclic Disinfection Byproducts (DBPs) More Toxic than Common Aliphatic DBPs? Environmental Science & Technology, 56, 194-207.

[4] Yang, B., Li, H., Zhang, Z., Xiao, K., Yang, M., Zhang, F., Wang, M., Guo, X., Li, Q., Fu, W., Si, R., Wang, L., Chen, H.* (2022). Nickel dual-atom catalysts for the selective electrocatalytic debromination of tribromoacetic acid as a green chemistry process. Chemical Engineering Journal, 427, 131719.

[5] Hong, N., Li, Y., Liu, J., Yang, M., Liu, A.* (2022). A snapshot on trihalomethanes formation in urban stormwater: Implications for its adequacy as an alternative water resource. Journal of Environmental Chemical Engineering, 107180.

[6] Gao, J., Tscharke, B. J., Choi, P. M., O’Brien, J. W., Boogaerts, T., Jiang, H., Yang, M., Hollingworth, S. A., Thai, P. K.* (2021). Using Prescription and Wastewater Data to Estimate the Correction Factors of Atenolol, Carbamazepine, and Naproxen for Wastewater-Based Epidemiology Applications. Environmental Science & Technology, 55(11), 7551-7560.

[7] Zhang, L., Qiu, L., Zhu, Q., Liang, X., Huang, J., Yang, M., Zhang, Z.*, Ma, J.*, Shen, J. (2021). Insight into efficient degradation of 3, 5-dichlorosalicylic acid by Fe-Si-B amorphous ribbon under neutral condition. Applied Catalysis B: Environmental, 294, 120258.

[8] Wu, H., Long, K., Sha, Y., Lu, D., Xia, Y., Mo, Y., Yang, Q., Zheng, W., Yang, M., Wei, X.* (2021). Occurrence and toxicity of halobenzoquinones as drinking water disinfection byproducts. Science of The Total Environment, 770, 145277.

[9] Qian, Y., Jia, X., Ding, T., Yang, M., Yang, B., Li, J.* (2021). Occurrence and removal of bisphenol analogues in wastewater treatment plants and activated sludge bioreactor. Science of The Total Environment, 758, 143606.

[10] Li, B., Chen, B.*, Chen, S., Yang, M., Wu, Q. (2021). Removing chlorinated haloacetaldehydes from drinking water by household heating devices with and without chlorine: Efficiency, influencing factors, and mechanisms. Chemosphere, 131202.

[11] Liang, L., Li, X., Hu, H., Zhang, J., Peng, Y., Liu, C. *, Yang, M. (2021). Preparation of a novel Janus-cotton via the in-situ dual-phase formation and volatilization-induced fabrication method for oil/water separation with single and double layers. Journal of Environmental Chemical Engineering, 106444.

[12] Wei, X., Yang, M., Zhu, Q., Wagner, E. D., Plewa, M. J.* (2020). Comparative quantitative toxicology and QSAR modeling of the haloacetonitriles: Forcing agents of water disinfection byproduct toxicity. Environmental Science & Technology, 54(14), 8909-8918.

[13] Li, L. P., Huang, W. L., Yang, M. T., Liu, Y., Bowden, R. D., Simpson, M. J., Lajtha, K., Tian, L. Q., Wang, J. J.* (2020). Chlorination of soil-derived dissolved organic matter: Long-term nitrogen deposition does not increase terrestrial precursors of toxic disinfection byproducts. Water Research, 116271.

[14] Liu, X., Chen, L., Yang, M., Tan, C., Chu, W.* (2020). The occurrence, characteristics, transformation and control of aromatic disinfection by-products: A review. Water Research, 116076.

[15] Liu, Y., Lu, J., Tao, Y., Li, N., Yang, M., Shao, J.* (2020). Ag-Embedded Silica Core–Shell Nanospheres for Operando Surface Enhanced Raman Spectroscopy of High-Temperature Processes. Analytical chemistry, 92(14), 9566-9573.

[16] Ding, T., Li, W., Cai, M., Jia, X., Yang, M., Yang, B., Li, J.* (2020). Algal toxicity, accumulation and metabolic pathways of galaxolide. Journal of Hazardous Materials, 384, 121360.

[17] Ding, T., Li, W., Yang, M., Yang, B., Li, J.* (2020). Toxicity and biotransformation of bisphenol S in freshwater green alga Chlorella vulgaris. Science of The Total Environment, 141144.

[18] Ding, T., Lin, K., Yang, B., Yang, M., Li, J.* (2019). Toxic effects and metabolic fate of carbamazepine in diatom Navicula sp. as influenced by humic acid and nitrogen species. Journal of Hazardous Materials, 120763.

[19] Ding, T., Li, W., Cai, M., Jia, X., Yang, M., Yang, B., Li, J.* (2019). Algal toxicity, accumulation and metabolic pathways of galaxolide. Journal of Hazardous Materials, 121360.

[20] Zhang, Y., Bu, Y., Han, J., Liu, Y., Chen, B.*, Zhang, X., Yang, M., Sui, Y. (2018). A facile and green pretreatment method for nonionic total organic halogen (NTOX) analysis in water–Step I. Using electrodialysis to separate NTOX and halides. Water Research, 145, 631-639.

[21] Ding, T., Lin, K., Yang, M., Bao, L., Li, J.*, Yang, B., Gan, J. (2018). Biodegradation of triclosan in diatom Navicula sp.: Kinetics, transformation products, toxicity evaluation and the effects of pH and potassium permanganate. Journal of Hazardous Materials, 344, 200-209.

[22] Ding, T., Lin, K., Bao, L., Yang, M., Li, J.*, Yang, B., Gan, J. (2018). Biouptake, toxicity and biotransformation of triclosan in diatom Cymbella sp. and the influence of humic acid. Environmental Pollution, 234, 231-242.

[23] Hong, N., Liu, A.*, Zhu, P., Zhao, X., Guan, Y., Yang, M., Wang, H. (2018). Modelling benzene series pollutants (BTEX) build-up loads on urban roads and their human health risks: Implications for stormwater reuse safety. Ecotoxicology and Environmental Safety, 164, 234-242.

[24] Ding, T., Yang, M., Zhang, J., Yang, B., Lin, K., Li, J.*, Gan, J. (2017). Toxicity, degradation and metabolic fate of ibuprofen on freshwater diatom Navicula sp. Journal of Hazardous Materials, 330, 127-134.

[25] Ding, T., Lin, K., Yang, B., Yang, M., Li, J.*, Li, W., Gan, J. (2017). Biodegradation of naproxen by freshwater algae Cymbella sp. and Scenedesmus quadricauda and the comparative toxicity. Bioresource Technology, 238, 164-173.

[26] Ding, G., Zhang, X.*, Yang, M., Pan, Y. (2013). Formation of new brominated disinfection byproducts during chlorination of saline sewage effluents. Water Research, 47(8), 2710-2718.

[27] Xiao, F., Zhang, X.*, Zhai, H., Lo, I. M., Tipoe, G. L., Yang, M., Pan, Y., Chen, G. (2012). New halogenated disinfection byproducts in swimming pool water and their permeability across skin. Environmental Science & Technology, 46(13), 7112-7119.

[28] Li, Y., Zhang, X.*, Krasner, S. W., Shang, C., Zhai, H., Liu, J., Yang, M. (2011). Penetration of polar brominated DBPs through the activated carbon columns during total organic bromine analysis. Journal of Environmental Monitoring, 13(10), 2851-2857.

[29] Xiao, F., Zhang, X.*, Zhai, H., Yang, M., Lo, I. M. (2010). Effects of enhanced coagulation on polar halogenated disinfection byproducts in drinking water. Separation and Purification Technology, 76(1), 26-32.

五、专利

[1] 杨梦婷; 刘焱; 朱情瑶; 高健发; 刘长坤; 刘安; 零价铁/铜混合物对DBPs反应速率的预测方法、装置、计算机设备及存储介质, 2021-9-14, 中国, ZL202111076052.3, 发明专利, 已授权。

[2] 杨梦婷; 刘焱; 刘嘉辰; 张振轩; 杨波; 通过EEM-PARAFAC 对藻类有机物氯消毒产生的DBPs 进行预测的方法, 2023-11-01, 中国, ZL202311445712.X, 发明专利, 已授权。

[3] 杨梦婷；杨波；王晓婷；陈辉煌；刘焱；一种新型活化臭氧体系降解PPCPs的方法, 2024-04-24, 中国, 2024105006099, 发明专利, 已授权待下证。

[4] 杨梦婷; 李文龙; 刘焱; 高健发; 何桂莹; 溶解性微生物产物及消毒副产物发生及机理测定分析方法, 2023-10-31, 中国, 2023114257496, 发明专利, 已授权待下证。

[5] 杨梦婷；刘焱；梁美玲；陈铄；一种高效低能耗的控制水中卤代消毒副产物的方法，2024-07-29, 中国, 2024110251071, 发明专利, 受理中。

六、获奖情况

个人获奖：

1. 2024.03, 2022年度 Environ. Sci. Technol.优秀审稿人奖（ES&T Excellence in Review Award 2022, Environmental Science & Technology期刊

2. 国家自然科学基金委员会第六届环境工程青年论坛最佳报告奖，环境工程青年论坛学术秘书组/第六届环境工程青年论坛组委会，独立，2018.12.8

3. ES&T’s Best Papers of 2020—First Joint Second Runner-Up (排名第二), Environmental Science & Technology期刊, 2021.9

4. 深圳市海外高层次人才，2016.5

5. 深圳市后备级人才，2021.9

6. 深圳市南山区领航人才,2017.3

7. 深圳大学“荔园优秀青年教师”，2021

8. 深圳大学新锐研究生导师，2022

9. 深圳大学2019届百篇优秀本科毕业论文（设计）指导教师（独立），深圳大教务部, 2019.06

10. 第三届全国仿真创新应用大赛仿真教学应用赛道数字仿真资源建设方向高教组全国一等奖（排名第三），工业和信息化部人才交流中心，2024.11.25

11. 全国高等学校教师自制实验教学仪器设备创新大赛三等奖（排名第三），中国高等教育学会,2021.05

12. 3rd Best Student Poster, 2012 Gordon Research Conference on Drinking Water Disinfection By-Products, South Hadley, USA.

13. Young researchers Fellowship, 2012 Gordon Research Conference, Drinking Water Disinfection By-Products, South Hadley, USA.

14. 2012–2013 SENG PhD Fellowship Award, The Hong Kong University of Science and Technology, Hong Kong.

15. Postgraduate Studentship, 08/2009–08/2013, The Hong Kong University of Science and Technology, Hong Kong.

指导学生获奖：

1. 梁美玲，陈铄，第九届全国大学生生命科学竞赛（科学探究类），国赛三等奖，2024.7。

2. 刘焱，第七届水消毒与消毒副产物控制学术研讨会，优秀海报—最佳版面奖，2020.12。

3. 梁美玲，陈铄，第九届全国大学生生命科学竞赛（科学探究类），广东省赛区二等奖，2024.7。

4. 陈铄，深圳市第一届供水管网智慧诊断修复大赛暨大学生水资源综合利用创新设计竞赛二等奖，2024.11。

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