English

李尧

时间:2019-06-12浏览:23437

姓名:李尧

职务职称:教授,博士生导师

主要研究领域:水污染防治与修复;饮用水处理及污染修复;消毒剂和消毒副产物的去除;水体修复新型材料的开发与利用;新型纳米材料污染与控制;纳米技术开发与利用;土壤污染修复技术及材料开发。

联系电话:
邮箱:hkliyao@nankai.edu.cn


教育背景

2006.9-2010.6 香港科技大学 土木与环境工程系,获工学博士学位 
2003.9-2006.7 北京大学 环境学院,获理学硕士学位 
1999.9-2003.7 南开大学 环境科学与工程学院,获理学学士学位

科研教学经历

2019.01至今南开大学环境科学与工程学院,教授,博士生导师

2015.9-2016.9 美国加州大学圣芭芭拉分校纳米研究中心,访问学者

2011.8-2018.12 南开大学 环境科学与工程学院,副教授

学术与社会任职

中国环境科学学会 高级会员

科研项目

1. 国家重点研发计划(场地土壤污染成因与治理技术),2019YFC180580300“石化污染场地强化多相抽提与高效净化耦合技术:(课题三)有机污染物绿色增溶脱附与地层强化渗透材料及技术”,2020.1-2023.12, 418万元,负责人,在研。

2. 国家自然科学基金(面上项目),21677078,“碳纳米材料在水处理消毒剂作用下的转化机制及其效应研究”,2017/01-2020/1282 万元,负责人,在研。

3. 国家自然科学基金(青年项目),21307060,“碳纳米颗粒产生含氧自由基及降解有机污染物的机制研究”,2014/01-2016/1225 万元,负责人,已结题。

4. 天津市自然科学基金(青年项目),13JCQNJC07900,“官能化碳材料对吸附态有机污染物的降解活性研究”,2013/4-2016/36 万元,负责人,已结题。

5. 国家自然科学基金(重点项目),21237002,“人工纳米材料对水环境中有机污染物界面过程的影响机制研究”,2013/01-2017/12300 万元,参加,已结题。

6. 国家973 计划,2014CB932001,“人工纳米材料在环境中的迁移、转化和归趋研究”,2014/01-2018/123200万(课题一480 万元),参加,已结题。

7. 国家973 计划(青年),2015CB459001,“新型持久性有机物在电子废弃物污染源及周边区域的迁移转化与修复控制”,2015/1-2019/12500 万元,参加,已结题。

学术论著

Zhang, M., Wang, X., Du, T., Wang, H., Hao, T.*, Wang, Y., Li, Y.*, 2019. Effects of carbon materials on the formation of disinfection byproducts during chlorination: Pore structure and functional groups. Water Res. 162, 1-10.

Wang, H., Zhang, M., He, X., Du, T., Wang, Y., Li, Y.*, Hao, T.*, 2019. Facile prepared ball-like TiO2 at GO composites for oxytetracycline removal under solar and visible lights. Water Res. 160, 197-205.

Wang, X., Adeleye, A.S., Wang, H., Zhang, M., Liu, M., Wang, Y., Li, Y.*, Keller, A.A.*, 2018. Interactions between polybrominated diphenyl ethers (PBDEs) and TiO2 nanoparticle in artificial and natural waters. Water Res. 146, 98-108.

Du, T., Adeleye, A.S., Keller, A.A., Wu, Z., Han, W., Wang, Y., Zhang, C., Li, Y.*, 2017. Photochlorination-induced transformation of graphene oxide: Mechanism and environmental fate. Water Res. 124, 372-380.

Li, Y.*, Yang, N., Du, T., Wang, X., Chen, W., 2016. Transformation of graphene oxide by chlorination and chloramination: Implications for environmental transport and fate. Water Res. 103, 416-423.

Du, T., Adeleye, A., Zhang, T., Yang, N., Hao, R., Li, Y.*, Song, W., Chen.*, W., 2019. Effects of ozone and produced hydroxyl radicals on the transformation of graphene oxide in aqueous media. Environ. Sci. Nano 6, 2484-2494.

Du, T., Adeleye, A.S., Zhang, T., Jiang, C., Zhang, M., Wang, H., Li, Y.*, Keller, A.A.* , Chen, W., 2018. Influence of light wavelength on the photoactivity, physicochemical transformation, and fate of graphene oxide in aqueous media. Environ. Sci. Nano 5 (11), 2590-2603.

Li, Y.*, Zhang, M., Hao, R., Wang, H., He, X., Du, T., Yang, X., Wang, Y., 2019. Influence of (photo)bromination on the transformation, aggregation and sedimentation of graphene oxide. Chem. Eng. J. 355, 487-497.

Fang, F.*, Wang, X., Zhang, M., Hao, H.Z., Wang, H.H., Wang, Y.Y., Li, Y.*, 2020.Effects of residual carbon materials on the disinfection byproduct formation in artificial and natural waters. Chemosphere 238, 1-6.

Liu, M., Zhang, M., Hao, R., Du, T., Li, T., Li, Y.*, 2019. Disinfection byproduct formation and toxicity of graphene oxide in water treatment system. Chemosphere 217, 68-75.

Wang, H., Ma, H., Zhang, M., Du, T., Hao, R., Liu, M., Li, Y.*, 2019. Effect of polybrominated diphenyl ethers on the formation of disinfection byproducts in the water system. Chemosphere 217, 42-46.

Zhang, M., Ma, H., Wang, H., Du, T., Liu, M., Wang, Y., Zhang, T., Li, Y.*, 2019. Effects of ion species on the disinfection byproduct formation in artificial and real water. Chemosphere 217, 706-714.

Zhang, M., Wang, X., Hao, H., Wang, H., Duan, L.*, Li, Y.*, 2019. Formation of disinfection byproducts as affected by biochar during water treatment. Chemosphere 233, 190-197.

Adeleye, A.S., Wang, X., Wang, F., Hao, R., Song, W., Li, Y.*, 2018. Photoreactivity of graphene oxide in aqueous system: Reactive oxygen species formation and bisphenol A degradation. Chemosphere 195, 344-350.

Duan, L., Hao, R., Xu, Z., He, X., Adeleye, A.S., Li, Y.*, 2017. Removal of graphene oxide nanomaterials from aqueous media via coagulation: Effects of water chemistry and natural organic matter. Chemosphere 168, 1051-1057.

Hao, R., Zhang, Y., Du, T., Yang, L., Adeleye, A.S., Li, Y.*, 2017. Effect of water chemistry on disinfection by-product formation in the complex surface water system. Chemosphere 172, 384-391.

Zhai, H., He, X., Zhang, Y., Du, T., Adeleye, A.S., Li, Y.*, 2017. Disinfection byproduct formation in drinking water sources: A case study of Yuqiao reservoir. Chemosphere 181, 224-231.

Du, T., Wang, Y., Yang, X., Wang, W., Guo, H., Xiong, X., Gao, R., Wuli, X., Adeleye, A.S., Li, Y.*, 2016. Mechanisms and kinetics study on the trihalomethanes formation with carbon nanoparticle precursors. Chemosphere 154, 391-397.

Li, Y., Yang, N., Du, T., Xia, T., Zhang, C., Chen, W.*, 2016. Chloramination of graphene oxide significantly affects its transport properties in saturated porous media. NanoImpact 3-4, 90-95.

Li, Y., Zhang, X.*, Shang, C., Krasner S.W., 2011 Evaluation and improvement of total organic bromine analysis with respect to reductive property of activated carbon. Water Res., 45, 1229-1237.

Li, Y., Zhang, X.*, Shang, C., Krasner S.W., 2011 Penetration of polar brominated DBPs through the activated carbon columns during total organic bromine analysis. J. Environ. Monit., 13, 2851-2857.

Li, Y., Zhang, X.*, Shang, C., 2010 Effect of Reductive Property of activated carbon on total organic halogen analysis. Environ. Sci. Technol. 44, 2105–2111.

Adeleye, A.S.*, Ho, K.T., Zhang, M., Li, Y., Burgess, R.M., 2019. Fate and transformation of graphene oxide in estuarine and marine waters. Environ. Sci. Technol. 53 (10), 5858-5867.

Geng, J., Han, M., Yang, X., Li, Y., Bartlam, M.*, Wang, Y.*, 2019. Different biotransformation of three hexabromocyclododecane diastereoisomers by Pseudomonas sp. under aerobic conditions. Chem. Eng. J. 374, 870-879.

Han, W., Wu, Z., Li, Y., Wang, Y.*, 2019. Graphene family nanomaterials (GFNs)—promising materials for antimicrobial coating and film: A review. Chem. Eng. J. 358, 1022-1037.

Wu, Y., Wang, Y., Lin, Z., Wang, Y., Li, Y., Liu, S., Gui, X.*, Yang, X.*, 2019. Three-dimensional α-Fe2O3/amino-functionalization carbon nanotube sponge for adsorption and oxidative removal of tetrabromobisphenol A. Sep. Purif. Technol. 211, 359-367.

Wu, Z., Han, W., Xie, M., Han, M., Li, Y., Wang, Y.*, 2019. Occurrence and distribution of polybrominated diphenyl ethers in soils from an e-waste recycling area in northern China. Ecotox. Environ. Safe. 167, 467-475.

Han, W., Gao, G.*, Geng, J., Li, Y., Wang, Y.*, 2018. Ecological and health risks assessment and spatial distribution of residual heavy metals in the soil of an e-waste circular economy park in Tianjin, China. Chemosphere 197, 325-335.

Wu, Z., Xie, M., Li, Y., Gao, G., Bartlam, M., Wang, Y.*, 2018. Biodegradation of decabromodiphenyl ether (BDE 209) by a newly isolated bacterium from an e-waste recycling area. AMB Express 8 (1), 27.

Li, X., Chen, W., Zhang, C., Li, Y., Wang, F., Chen, W.*, 2016. Enhanced dehydrochlorination of 1,1,2,2-tetrachloroethane by graphene-based nanomaterials. Environ. Pollut. 214, 341-348.

Pan, Y., Tsang, D.C.W., Wang, Y., Li, Y., Yang, X.*, 2016. The photodegradation of polybrominated diphenyl ethers (PBDEs) in various environmental matrices: Kinetics and mechanisms. Chem. Eng. J. 297, 74-96.

Qi, Y., Xia, T., Li, Y., Duan, L., Chen, W.*, 2016. Colloidal stability of reduced graphene oxide materials prepared using different reducing agents. Environ. Sci. Nano 3 (5), 1062-1071.

Chen, W., Li, Y., Zhu, D., Zheng, S., Chen, W.*, 2014. Dehydrochlorination of activated carbon-bound 1,1,2,2-tetrachloroethane: Implications for carbonaceous material-based soil/sediment remediation. Carbon 78, 578-588.

荣誉与奖励

(1) 2013年入选“131”天津市创新型人才培养工程第三层次人选

(2) 2013年获得天津市“用三年时间引进千名以上高层次人才”荣誉称号