1. Zhang, S., Chang, X., Wu, F., Lu, Y., An, S., Zhou, Y., Feng, M., Du, Y.*, 2026. Alternation magnitudes of organic matter composition determines priming effect of biodegradable microplastics on lake carbon emission. Water Research 297: 125713. (一区TOP SCI)
2. Wu, F., An, S., Liu, J., Lu, Y., He, H., Chang, X., Leng, Q., Zhang, S., Xing, P., Li, K.*, Du, Y.*, 2026. Macrophyte restoration alters sedimentary organic matter-microbes-environment interactions and enhances carbon sequestration in lake sediment. Water Research 297: 125658. (一区TOP SCI)
3. An, S., Álvarez-Salgado, X.A., Wu, F., Zhang, S., He, D., Chen, H., Lu, Y., Du, Y. *, Zhang, Y. *, 2025. Climate-driven hydrological and biogeochemical shifts lead to increasing dissolved organic carbon storage in a Tibetan lake of Nam Co. Water Research 291: 125239. (一区TOP SCI)
4. Du, Y., Zhao C., Han X., An S., Mao Z., Xun F., He D., Zhang Y., Feng M., Luo W., Wu Q. L., Xing P. *, 2025. Authigenic CaCO3 precipitation contributes to the stabilization of algal-derived organic carbon in karst lake. Water Research 285: 123999.(一区TOP SCI)
5. Wu, F., Luo C., Lu Y., Li X.*, Li K., Du Y.*, 2025. Fe(III)-mediated sediment sequestration of phosphate and humic acid: Timing of inputs regulates environmental processes. Chemical Geology 683: 122778. (二区TOP SCI)
6. Wen, S., Liu J., Lu Y., Dai J., Huang X., An S., Jeppesen E., Liu Z., Du Y.*, 2024. Composition regulates organic matter adsorption onto iron (oxy)hydroxides and competition with phosphate: Implications for organic carbon and phosphorus immobilization in lakes. Journal of Environmental Sciences 144: 159-171. (二区SCI)
7. An, S., Du Y.*, Huang X., Lu Y., Mao Z., Shi L., Cotner J. B., Xing P., Zhang Y.*, 2024. Long-term photochemical and microbial alterations lead to the compositional convergence of algal and terrestrial dissolved organic matter. Environmental Science & Technology 58(42):18765-18776. (一区TOP SCI)
8. Du Y.*, Chen F., Zhang Y., He H., Wen S., Huang X., Song C., Li K., Wang J., Keellings D., Lu Y.*, 2023. Human activity coupled with climate change strengthens the role of lakes as an active pipe of dissolved organic matter. Earth's Future 11(9): e2022EF003412. (一区TOP SCI)
9. Wen, S., Lu Y., Dai J., Huang X., An S., Liu J., Liu Z., Du Y.*, Zhang Y., 2023. Stability of organic matter-iron-phosphate associations during abiotic reduction of iron. Journal of Hazardous Materials 449: 131016. (一区TOP SCI)
10. An, S., Mao Z., Chen M., Huang X., Shi L., Xing P., Kong L., Zhou Y., Du Y.* and Zhang Y., 2023. Sunlight irradiation promotes both the chemodiversity of terrestrial DOM and the biodiversity of bacterial community in a subalpine lake. Environmental Research 227: 115823. (二区TOP SCI)
11. An, S., Chen F., Chen S., Feng M., Jiang M., Xu L., Wen S., Zhang Q., Xu J., Du Y.*, Zhang Y., 2023. In-lake processing counteracts the effect of allochthonous input on the composition of color dissolved organic matter in a deep lake. Science of The Total Environment 856: 158970.
12. Liu, J., Zhang Q., Chen M., Dai J., Gu W., Wen S., Du Y.*, 2023. Composition of organic matter‑iron‑phosphorus associations in sediments of algae- and macrophyte-dominated zones in lake Taihu. Chemical Geology 622: 121375. (二区TOP SCI)
13. Huang, X., An S., Chen S., Dai J., Liu J., Wen S., Li T.*, Xing P., Du Y.*, 2023. Transformation of algal-dissolved organic matter via sunlight-induced photochemical and microbial processes: Interactions between two processes. Environmental Science and Pollution Research 30: 52969-52981. (SCI)
14. Du Y.*, Luo C., Chen F., Zhang Q., Zhou Y., Jang K.-S., Zhang Y., Song C., Zhang Y., Zhang Y., Lu Y*., 2022. Water depth and transparency drive the quantity and quality of organic matter in sediments of alpine lakes on the Tibetan Plateau. Limnology and Oceanography 67(9):1959-1975. (一区TOP SCI)
15. Du Y., An S., He H., Wen S., Xing P.*, Duan H., 2022. Production and transformation of organic matter driven by algal blooms in a shallow lake: Role of sediments. Water Research 219: 118560. (一区TOP SCI)
16. Wen S., Lu Y., Luo C., An S., Dai J., Liu Z., Zhong J., Du Y.*, 2022. Adsorption of humic acids to lake sediments: Compositional fractionation, inhibitory effect of phosphate, and implications for lake eutrophication. Journal of Hazardous Materials 433: 128791. (一区TOP SCI)
17. Luo C., Wen S., Lu Y., Dai J., Du Y.*, 2022. Coprecipitation of humic acid and phosphate with Fe(III) enhances the sequestration of carbon and phosphorus in sediments. Chemical Geology 588: 120645. (二区TOP SCI)
18. Dai, J., Zhang Q., Liu J., Wen S., Zhang Y.*, He D., Du Y.*, 2022. Coprecipitation of organic matter, phosphate with iron: Implications for internal loadings of phosphorus in algae-dominated and macrophyte-dominated lakes. Frontiers in Environmental Science 10: 953509. (SCI)
19. Du Y.*, Chen F., Xiao K., Song C., He H., Zhang Q., Zhou Y., Jang K.-S., Zhang Y., Xing P., Liu Z., Zhang Y., Lu Y.*, 2021. Water residence time and temperature drive the dynamics of dissolved organic matter in alpine lakes in the Tibetan Plateau. Global Biogeochemical Cycles 35(11): e2020GB006908. (二区TOP SCI)
20. Du Y.*, Lu Y., Roebuck J. A., Liu D., Chen F., Zeng Q., Xiao K., He H., Liu Z., Zhang Y., Jaffé R., 2021. Direct versus indirect effects of human activities on dissolved organic matter in highly impacted lakes. Science of The Total Environment 752: 141839.
21. Luo C., Wen S., An S., Lu Y., Du Y.*, 2021. Phosphate alters the compositional characteristics of humic acid adsorbed onto goethite. Journal of Soils and Sediments 21(10): 3352-3366. (SCI)
22. Du Y.*, Zhang Q., Liu Z., He H., Lürling M., Chen M., Zhang Y., 2019. Composition of dissolved organic matter controls interactions with La and Al ions: Implications for phosphorus immobilization in eutrophic lakes. Environmental Pollution 248: 36-47. (二区TOP SCI)
23. Du Y., Ramirez C. E., Jaffé R.*, 2018. Fractionation of dissolved organic matter by co-precipitation with iron: effects of composition. Environmental Processes 5(1): 5-21. (SCI)
24. Du Y.*, Zhang Y., Chen F., Chang Y., Liu Z., 2016. Photochemical reactivities of dissolved organic matter (DOM) in a sub-alpine lake revealed by EEM-PARAFAC: An insight into the fate of allochthonous DOM in alpine lakes affected by climate change. Science of The Total Environment 568: 216-225.
25. Du Y.*, Zhao L., Zhang Y., 2014. Roles of TaON and Ta3N5 in the visible-Fenton-like degradation of atrazine. Journal of Hazardous Materials 267: 55-61. (一区TOP SCI)
26. Du Y.*, Chen H., Zhang Y., Chang Y., 2014. Photodegradation of gallic acid under UV irradiation: Insights regarding the pH effect on direct photolysis and the ROS oxidation-sensitized process of DOM. Chemosphere 99: 254-260. (二区TOP SCI)
27. Du Y.*, Zhao L., Chang Y., Su Y., 2012. Tantalum (oxy) nitrides nanotube arrays for the degradation of atrazine in vis-Fenton-like process. Journal of Hazardous Materials 225: 21-27. (一区TOP SCI)
28. Zhang Y., Du Y.*, Liu D., Bian W., 2014. The role of dissolved oxygen in the Ta(O)N-driven visible Fenton-like degradation of atrazine. Journal of Environmental Chemical Engineering 2(3): 1691-1698. (二区TOP SCI)
29. 康入蕴, 安世林, 黄秀琳, 吴凤亭, 李学艳*,杜瑛珣*. 2025. 光化学转化对藻源溶解性有机质微生物转化的影响机制. 湖泊科学 37(04): 1198-1211. (EI)
30. 杜瑛珣*, 戴家如, 张巧颖, 刘静静, 黄秀琳, 安世林,文帅龙. 2022. 太湖草、藻湖区沉积物水溶性有机质组成和分子结构分析. 环境科学 43(5): 4108-4117. (EI)
31. 文帅龙,刘静静,戴家如,黄秀琳,安世林,刘正文,杜瑛珣*. 2022. 铁(氢)氧化物介导的溶解性有机质、无机磷的固定及相互作用研究进展,湖泊科学 34(5): 1428-1440. (EI)
32. 安世林, 罗春燕, 陈煜, 杜瑛珣*. 2022. 亚高山湖泊天才湖周边土壤腐殖酸的光降解研究. 湖泊科学 34(02): 553-568. (EI)
33. 张巧颖, 孙伟, 杜瑛珣*,巩小丽. 2021. 太湖蓝藻胞内有机质的微生物降解. 环境科学 42(04): 1870-1878. (EI)
34. 罗春燕, 巩小丽, 张巧颖, 陈煜,杜瑛珣*. 2021. Fenton体系处理黑臭河道沉积物的效果初探. 湖泊科学 33(01):148-157. (EI)
35. 张巧颖, 杜瑛珣*, 罗春燕, 刘正文. 2019. 改性膨润土钝化湖泊中的磷及其生态风险的研究进展. 湖泊科学 31(06): 1499-1509. (EI)
36. 孙伟, 巩小丽, 陈煜, 郑建伟, 李琪*, 杜瑛珣*. 2018. 太湖藻源溶解性有机质光化学降解研究. 湖泊科学 30(01): 91-101. (EI)
37. 赵璐, 邓一荣, 杜瑛珣*, 傅翔. 2012. 掺氮Ta2O5诱发可见光-类Fenton体系降解阿特拉津研究. 环境科学 33(4): 1252-1259. (EI)
