潘旸
副教授、博导
副系主任
南京大学环境学院环境工程系
Office: 环科楼B401
Email:panyang@nju.edu.cn
学习工作经历
2017年11月— 现在 | 南京大学,环境学院,副教授 |
2014年1月 — 2017年10月 | 南京大学,环境学院,助理研究员、副研究员 |
2009年8月 — 2013年11月 | 香港科技大学,环境工程系,工学博士学位 |
2005年9月 — 2009年6月 | 南京大学,环境学院环境工程系,工学学士学位 |
学术兼职
国际水协(IWA)中国青年委员会委员
Frontiers of Environmental Science and Engineering期刊青年编委
Eco-Environment & Health 期刊青年编委
主要研究方向
水质健康风险防控;高风险消毒副产物的识别与控制;新型消毒技术研发与应用
主持科研项目
(1) 国家重点研发计划课题(2024YFC3714600,2024.12−2028.12)
(2) 国家优秀青年科学基金(22322605,2024.1−2026.12)
(3) 国家重点研发计划课题(2023YFE0100900,2023.7−2026.6)
(4) 国家自然科学基金面上项目(22176089,2022.1−2025.12)
(5) 江苏省优秀青年科学基金(BK20180058,2018.7−2021.6)
(6) 国家自然科学基金面上项目(51778280,2018.1−2021.12)
(7) 国家青年科学基金(51408296,2015.1−2017.12)
(8) 江苏省自然科学青年基金(BK20140607,2014.7−2017.6)
主要科研成果
· 第一/通讯作者期刊论文
(1) Jiang, L.; Zhu, X.; Shen, Y.; Wang, D.; Ren, J.; Li, A.; Pan, Y.* Control of drinking water disinfection byproducts with a novel bromide-selective anion exchange resin: Design, mechanism, and performance. Water Research 2025, 122565.
(2) Chen, X.; Ge, Y.; Shi, W.; Yang, M.; Zhou, Q.; Pan, Y.* Estro-androgenic disrupting effects of halogenated disinfection byproducts: A comprehensive evaluation and comparison. Environmental Science & Technology 2024, 58, 20190−20200.
(3) Wang, D.; Luo, J.; Chen, X.; Shi, W.; Zhou, Q.; Shi, P.; Pan, Y.* Comparison of chlorine and chlorine dioxide disinfection in drinking water: Evaluation of disinfection byproduct formation under equal disinfection efficiency. Water Research 2024, 121932.
(4) Ren, J.; Tang, M.; Wang, L.; Chu, W.; Shi, W. Zhou, Q.*; Pan, Y.* How to achieve adequate quenching for DBP analysis in drinking water. Water Research 2024, 253, 121264.
(5) Jiang, L.; Luo, J.; Wei, W.; Song, M.; Shi, W.; Li, A.; Zhou, Q.*; Pan, Y.* Comparative cytotoxicity analyses of disinfection byproducts in drinking water using dimensionless parameter scaling method: Effect of halogen substitution type and number. Water Research 2023, 240, 120087.
(6) Jiang, X.; Shi, P.; Jiang, L.; Qiu, J.; Xu, B.; Pan, Y.*; Zhou, Q.* In vivo toxicity evaluations of halophenolic disinfection byproducts in drinking water: A multi-omics analysis of toxic mechanisms. Water Research 2022, 218, 118431.
(7) Wu, Y.; Wei, W.; Luo, J.; Pan, Y.*; Yang, M.; Hua, M.; Chu, W.; Shuang, C.; Li, A. Comparative toxicity analyses from different endpoints: Are new cyclic disinfection byproducts (DBPs) more toxic than common aliphatic DBPs? Environmental Science & Technology 2022, 56, 194−207.
(8) Tang, H.; Zhong, H.; Pan, Y.*; Zhou, Q.; Huo, Z.; Chu, W.; Xu, B. A new group of heterocyclic nitrogenous disinfection byproducts (DBPs) in drinking water: Role of extraction pH in unknown DBPs exploration. Environmental Science & Technology 2021, 55, 6764−6772.
(9) Zhang, D.; Wu, Y.; Zhang, X.; Li, W.; Li, Y.; Li, A.; Pan, Y.* Identification, formation and control of polar brominated disinfection byproducts during cooking with edible salt, organic matter and simulated tap water. Water Research 2020, 172, 115526.
(10) Yin, T.; Wu, Y.; Shi, P.; Li, A.; Xu, B.; Chu, W.; Pan, Y.* Anion-exchange resin adsorption followed by electrolysis: a new disinfection approach to control halogenated disinfection byproducts in drinking water. Water Research 2020, 168, 115144.
(11) Huang, Y.; Li, H.; Zhou, Q.; Li, A.; Shuang, C.; Xian, Q.; Xu, B.; Pan, Y.* New phenolic halogenated disinfection byproducts in simulated chlorinated drinking water: identification, decomposition, and control by ozone-activated carbon treatment. Water Research 2018, 146, 298–306.
(12) Pan, Y.; Wang, Y.; Li, A.; Xu, B.; Xian, Q.; Shuang, C.; Shi, P.; Zhou, Q.* Detection, formation and occurrence of 13 new polar phenolic chlorinated and brominated disinfection byproducts in drinking water. Water Research 2017, 112, 129–136.
(13) Pan, Y.*; Li, W.; Li, A.*; Zhou, Q.; Shi, P.; Wang, Y. A new group of disinfection byproducts in drinking water: Trihalo-hydroxy-cyclopentene-diones. Environmental Science & Technology 2016, 50, 7344–7352.
(14) Pan, Y.; Zhang, X.*; Li, Y. Identification, toxicity and control of iodinated disinfection byproducts in cooking with simulated chlor(am)inated tap water and iodized table salt. Water Research 2016, 88, 60–68.
(15) Pan, Y.; Zhang, X.*; Wagner, E. D.; Osiol, J.; Plewa, M. J. Boiling of simulated tap water: Effect on polar brominated disinfection byproducts, halogen speciation, and cytotoxicity. Environmental Science & Technology 2014, 48, 149–156.
(16) Pan, Y.; Zhang, X.* Four groups of new aromatic halogenated disinfection byproducts: Effect of bromide concentration on their formation and speciation in chlorinated drinking water. Environmental Science & Technology 2013, 47, 1265–1273.
(17) Pan, Y.; Zhang, X.* Total organic iodine measurement: A new approach with UPLC/ESI-MS for off-line iodide separation/detection. Water Research 2013, 47, 163–172.
(18) He, G.; Zhao, J.; Liu, Y.; Wang, D.; Sheng, Z.; Zhou, Q.; Pan, Y.*; Yang, M.* Advances in environmental analysis of high molecular weight disinfection byproducts. Analytical and Bioanalytical Chemistry 2024.
(19) Wang, L.; Zhong, H.; Chen, X.; Chen, X.; Zhou, Q.; Li, A.; Pan, Y.* A group of emerging heterocyclic nitrogenous disinfection byproducts: Formation and cytotoxicity of halopyridinols in drinking water. Journal of Hazardous Materials 2024, 472, 134569.
(20) Liao, Y.; Tang, M.; Li, M.; Shi, P.; Li, A.; Zhang, Y.*; Pan, Y.* Control strategies for disinfection byproducts by ion exchange resin, nanofiltration and their sequential combination. Frontiers of Environmental Science and Engineering 2023, 17, 125.
(21) Zhao, J.; Han, L.; Tan, S.; Chu, W.; Dong, H.; Zhou, Q.; Pan, Y.* Revisiting the effect of boiling on halogenated disinfection byproducts, total organic halogen, and cytotoxicity in simulated tap water. Chemosphere 2022, 309, 136577.
(22) Qiu, J.; Huang, Y.; Wu, Y.; Shi, P.; Xu, B.; Chu, W.; Pan, Y.* Detection, transformation, and toxicity of indole-derivative nonsteroidal anti-inflammatory drugs during chlorine disinfection. Chemosphere 2020, 260, 127579.
(23) Huang, Y.; Zhang, Y.; Zhou, Q.; Li, A.; Shi, P.; Qiu, J.*; Pan, Y.* Detection, identification and control of polar iodinated disinfection byproducts in chlor(am)inated secondary wastewater effluents. Environmental Science: Water Research & Technology 2019, 5, 397–405.
(24) Liu, L.; Cui, H.; An, H.; Zhai, J.; Pan, Y.* Electrochemical detection of aqueous nitrite based on poly(aniline-co-o-aminophenol)-modified glassy carbon electrode. Ionics 2017, 23, 1517–1523.
(25) Pan, Y.*; Li, W.; An, H.; Cui, H.; Wang, Y. Formation and occurrence of new polar iodinated disinfection byproducts in drinking water. Chemosphere 2016, 144, 2312–2320.
(26) Pan, Y.; Li, H.; Zhang, X.*; Li, A.* Characterization of natural organic matter in drinking water: Sample preparation and analytical approaches. Trends in Environmental Analytical Chemistry 2016, 12, 23–30.
(27) Pan, Y.; Zhang, X.*; Zhai, J. Whole pictures of halogenated disinfection byproducts in tap water from China’s cities. Frontiers of Environmental Science and Engineering 2015, 9, 121–130.
(28) An, H.; Pan, L.; Cui, H.; Zhou, D.; Wang, B.; Zhai, J.; Li, Q.; Pan, Y.* Electrocatalytic performance of Pd nanoparticles supported on TiO2-MWCNTs for methanol, ethanol, and isopropanol in alkaline media. Journal of Electroanalytical Chemistry 2015, 741, 56–63.
(29) 韩亮亮、赵佳焱、李梦媛、董慧峪、楚文海、周庆、施鹏、潘旸*,饮用水中高分子量消毒副产物的检测识别方法,环境化学 2024,43(1),1–14。
(30) 魏文哲、罗家怡、赵佳焱、楚文海、董慧峪、周庆、施鹏、潘旸*,饮用水中新型环状消毒副产物的毒性研究进展,生态毒理学报 2021,16(6),87–103。
(31) 尹彤、吴赟、施鹏、李爱民、周庆、双陈冬、潘旸*,基于树脂处理和电解联用的卤代消毒副产物控制,环境工程学报 2019,13(2),272–281。
(32) 李欢、李正魁、李爱民、周庆、王莹、潘旸*,新型溴代苯酚类消毒副产物的氯化降解机制,环境科学 2017,38,3273–3280。
(33) 王莹、陈泽智、李爱民、周庆、李欢、潘旸*,13种新型极性苯酚类氯/溴代消毒副产物的生成机理,环境化学 2017,36,2089–2099。
(34) 赵李峰、张宴、熊波文、潘旸*,硅酸盐水泥固化模拟放射性废离子交换树脂的初步研究,原子能科学技术 2017,51,1742–1748。
· 编写专著
(1) Liu, Y.; Ni, J.; Ye, K.; He, G.; Sheng, Z.; Pan, Y.*; Yang, M.* DBPs in food and cooking. In Disinfection by-products in drinking water, Chen, C.; Andrews, S.; Xie, Y. Eds. Springer, 2024.
· 授权专利、软件著作权、标准
(1) 潘旸、尹彤、李爱民、周庆、双陈冬、吴赟,一种饮用水净化装置,2019/8/9, 江苏,ZL201820915574.5(授权专利)
(2) 潘旸、汤海洋、吴赟、谭索、张丹、李爱民、周庆,一种水样紫外消毒装置,2019/09/18,江苏,ZL201921137625.7(授权专利)
(3) 潘旸、汤海洋、钟红利、姚志建、李爱民、张丹、谭索,一种水体中卤代吡啶醇类消毒副产物的检测方法,2020/7/6,江苏,CN202010236520.8(授权专利)
(4) 潘旸、吴赟、汤海洋、姚志建、李爱民、魏文哲、李梦媛、钟红利,一种饮用水消毒装置,2020/6/15,江苏,ZL202021093040.2(授权专利)
(5) 基于机器学习的化学物质毒性预测软件,2022/1/4,2022SR0285183(软件著作权)
(6) 基于分子指纹与深度学习技术的生物体内毒性预测与风险评估系统,2022/2/9,2022SR0285184(软件著作权)
(7) 基于人体肝癌细胞的化学物质相对毒性预测软件,2022/2/10,2022SR0281686(软件著作权)
(8) 基于CHO细胞的化学物质毒性预测软件,2022/6/20,2022SR1276322(软件著作权)
(9) 实验动物饮用水卫生要求,DB 32/T 4188-2021,2021/12/31发布,2022/1/31实施(江苏省地方标准)
(10) 固态化学品经口鼻动式吸入染毒操作规程,DB 32/T 4450-2023,2023/2/6发布,2023/3/6实施(江苏省地方标准)
科研奖励
(1) ES&T Excellence in Review Award 2022,2024.3
(2) (2/9)饮用水中高风险有机物的精准识别与高效控制技术创新与应用,江苏省预防医学会科学技术奖,一等奖,江苏省预防医学会,2023.12
(3) (1/1)未来水科学新星奖,第十一届全国环境化学大会,2022.11
国际会议受邀报告
(1) Toxicity of DBPs: New Methods in Evaluation, Prediction, and Comparison, Water Disinfection, Byproducts and Health, Gordon Research Conference. 2023.7.30−2023.8.4, Mount Holyoke College, MA, US.(大会报告)
(2) Comparative Toxicity Analyses from Different Endpoints: Are Emerging Cyclic DBPs More Toxic than Common Aliphatic DBPs? HKUST Forum on Innovative Disinfection and Emerging Disinfection Byproducts, 2023.3.25−2023.3.26.(邀请报告)
(3) A New Group of Heterocyclic Nitrogenous Disinfection Byproducts (DBPs) in Drinking Water: Role of Extraction pH in Unknown DBP Exploration. ACS Fall 2021, 2021.8.22−2021.8.26.(大会报告)