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潘旸 副教授


 

副教授,副系主任

南京大学环境学院环境工程系

Emailpanyang@nju.edu.cn

 

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

Chemical Treatments 编委

 

学习工作经历

201711月— 现在

南京大学,环境学院,副教授

20141 201710

南京大学,环境学院,助理研究员、副研究员

20098 201311

香港科技大学,环境工程系,工学博士学位

20059 20096

南京大学,环境学院环境工程系,工学学士学位

 

主要研究方向

新型高风险消毒副产物的识别与控制

消毒工艺的优化与应用

 

主持科研项目

(1)   国家自然科学基金委员会,面上项目22176089,饮用水新型高分子量消毒副产物的检测识别、毒性评估与控制原理研究,2022.1−2025.12,主持

(2)   江苏省科技厅,优秀青年基金BK20180058,新型卤代消毒副产物的识别与控制,2018.7−2021.6,主持

(3)   国家自然科学基金委员会,面上项目51778280,饮用水中新型极性环状结构卤代消毒副产物的检测鉴别、生成机制和控制原理研究,2018.1−2021.12,主持

(4)   国家自然科学青年基金委员会,青年基金51408296,饮用水中新型极性碘代消毒副产物的检测鉴定和生成机理研究,2015.1−2017.12,主持

(5)   江苏省科技厅,青年基金BK20140607,长江三角洲地区饮用水中新型极性碘代消毒副产物的检测鉴定和污染特征研究,2014.7−2017.6,主持

 

主要科研成果

·           第一作者/通讯作者期刊论文

(1)    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.

(2)    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.

(3)    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, 115526.

(4)    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.

(5)    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.

(6)    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, 129136.

(7)    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.

(8)  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.

(9)  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.

(10)  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.

(11)  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.

(12)  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.

(13)  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.

(14)  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.

(15)  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.

(16)  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.

(17)  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.

(18)  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.

(19)  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,已接收。

(20)  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 2019132),272–281

(21)  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 2017383273–3280

(22)  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 2017362089–2099

(23)  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 2017511742–1748

 

·           第一完成人授权专利

(1)   潘旸;汤海洋;钟红利;姚志建;周庆;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,2021-5-11,中国,ZL202010236520.8

(2)   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,2021-3-5,中国,ZL202021093040.2

(3)   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,2020-5-5,中国,ZL201921137625.7

(4)   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,中国,ZL201820915574.5

 

·           第一完成人软件著作权

(1) 潘旸;任家丰;陈雪瑶;罗家怡;魏文哲;周庆;李爱民;施鹏;李文涛,基于机器学习的化学物质毒性预测软件,2022SR0285183,原始取得,全部权利,2021-12-20

(2) 潘旸;罗家怡;任家丰;陈雪瑶;魏文哲;李爱民;周庆;施鹏,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, 2022SR0285184, 原始取得, 全部权利,2022-1-20

(3) 潘旸;陈雪瑶;任家丰;罗家怡;魏文哲;李爱民;周庆;施鹏;李文涛,基于人体肝癌细胞的化学物质相对毒性预测软件, 2022SR0281686, 原始取得, 全部权利,2022-2-10

 

·           研制标准

(1) 中国标准,周永林;霍宗利;吉文亮;李爱民;周庆;潘旸;戴月;卞倩;鹿奎奎;李文涛;姚志建;单斌;胡峰;马恺;杜佳露;朱峰;张昊;李泽冉;胡佳偲,实验动物饮用水卫生要求,DB32/T 4188-2021,江苏省卫生标准化技术委员会,2021-12-31

 

·           会议报告

(1)    潘旸,饮用水新型环状结构消毒副产物的识别与控制,第十五届全国水处理化学大会暨学术研讨会,黑龙江哈尔滨,2021.9.17−19

(2)    Pan, Y. A new group of heterocyclic nitrogenous disinfection byproducts (DBPs) in drinking water: Role of extraction pH in unknown DBP exploration, ACS Fall 2021, Atlanta, GA, USA, 2021.8.22−2021.8.26

(3)    潘旸,饮用水新型环状结构消毒副产物的识别与控制,新时期新形势下我国环境工程二级学科发展规划研讨会暨环境学科青年教师学术论坛,上海,2021.5.22−2021.5.23

(4)    潘旸,饮用水新型环状结构消毒副产物的识别与控制,第五届全国水处理与循环利用学术会议,江苏苏州,2021.4.16−2021.4.18

(5)    潘旸,饮用水中新型卤代吡啶醇类消毒副产物的检测识别和毒性评估,第七届水消毒与消毒副产物控制学术研讨会,陕西西安,2020.12.4−2020.12.6

(6)    Pan, Y. Anion-exchange resin adsorption followed by electrolysis: A new disinfection approach to control halogenated disinfection byproducts in drinking water. 5th Annual IIES Science and Policy Workshop, Korea University, Seoul, Korea, November 13−15, 2019

(7)    Pan, Y. Detection, transformation, and toxicity of indole-derivative nonsteroidal anti-inflammatory drugs during chlorine disinfection. 39th International Symposium on Halogenated Persistent Organic Pollutants. Kyoto, Japan, August 25−30, 2019

(8)    Pan, Y. Anion-exchange resin adsorption followed by electrolysis: a new disinfection approach to control halogenated disinfection byproducts in drinking water. 2019 GRC on Water Disinfection, Byproducts, and Health. Mount Holyoke College, South Hadley, MA, U.S., July 28−August 2, 2019

(9)    潘旸,饮用水新型环状结构卤代消毒副产物的识别与控制,首届扬子江生态文明国际论坛,江苏南京,2019.6.26−2019.6.27

(10) 潘旸,饮用水中新型极性卤代消毒副产物的检测鉴别方法和生成机制研究,国家自然科学基金委第五届环境工程青年论坛学术交流研讨会,安徽合肥,2017.10.27−2017.10.28

(11) 潘旸,饮用水中一组新型极性环状结构卤代消毒副产物:三卤代-羟基环戊烯二酮,第三届消毒与消毒副产物研讨会,同济大学,2016.07.23−2016.07.24

(12) 潘旸,饮用水中13种新型极性苯酚类氯/溴代消毒副产物的检测方法、生成条件和污染特征研究,第十一届持久性有机污染物国际学术研讨会,陕西西安,2016.05.17−2016.05.19

(13) 潘旸,饮用水中13种新型极性苯酚类氯/溴代消毒副产物的检测方法、生成条件和污染特征研究,第三届生态毒理学研讨会,江苏无锡,2016.04.27−2016.04.30

 

人才计划和奖励

20197

201710

江苏省“六大人才高峰”高层次人才

国家自然科学基金委最佳报告奖

20175

南京大学全新环保科技创新奖

201510

江苏省“双创计划”

 
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