头像

Wang Yu Associate professor

Graduated From: Nankai University

Email: yu.wang@nankai.edu.cn

Office:

Tel:

Contact Information

Education Background


2017.09-2018.11     Research Scholar

Wadsworth Center, State of New York Department of Health (Supported by Health Research, INC.)

Supervisor: Prof. Kurunthachalam Kannan

 

2016.09-2019.06     Ph.D. (Environmental Science)

Major: Environmental chemistry; Nankai University; Supervisor: Prof. Hongwen Sun

 

2015.07-2016.02     Research Assistant

School of Environment; Tsinghua University

 

2013.09-2015.06     Master (Environmental Engineering)

Major: Environmental chemistry; China Agricultural University; Supervisor: Prof. Shuwen Hu

 

2009.09-2013.06     Bachelor (Environmental Engineering)

Major: Environmental Engineering; China Agricultural University


Current Appointments & Affiliations

2019.07- now        Lecturer

College of Environmental Science and Engineering, Nankai University


Teaching & Mentoring

Areas of Interest

Environmental behaviors of emerging contaminants in air-soil-plant system

Projects

·         National Natural Science Foundation of China, “Heterogeneous photoreaction and enrichment/ metabolism of organophosphate esters between atmospheric particulate matter and plant foliage” (42007328), 2021/01-2023/12

·         Natural Science Foundation of Tianjin, China, “Distribution characteristics and transformation behavior of organophosphite antioxidant in atmospheric dust and soil” 2022/01-2024/12

·         National Key Research and Development Program of China, “Spatial and temporal distribution of soil-water pollutants in the contaminated sites” (2020YFC1807001), 2020/12-2024/11

·         National Key Research and Development Program of China, “Integrated demonstration project of soil pollution control and remediation technology in typical oilfield mining area” (2019YFC1804105), 2019/12-2023/11

·         National Natural Science Foundation of China, “Effects of iron-sulfur reduction-oxidation coupling system on cadmium occurrence and mobility” (41977273), 2020/01-2023/12


Publications





 

·    Zhang, Q.; Li,   X.; Wang, Y.*; Zhang, C.; Cheng,   Z.; Zhao, L.; Li, X.; Sun, Z.; Zhang, J.; Yao, Y.; Wang, L.; Li, W.; Sun, H.,   Occurrence of novel organophosphate esters derived from organophosphite   antioxidants in an e-waste dismantling area: Associations between hand wipes   and dust. Environment International2021, 157, 106860.

·          Zhang, Q.; Wang, Y.*; Zhang, C.; Yao, Y.; Wang,   L.; Sun, H., A review of organophosphate esters in soil: Implications for the   potential source, transfer, and transformation mechanism. Environmental Research2021, 112122.

·          Liu, Y.; Hu, H.;   Wang, Y.*; Wang, L.; Feng, Y.*,   Effects of heavy metals released from sediment accelerated by artificial   sweeteners and humic acid on a green algae Scenedesmus obliquus. Science   of the Total Environment 2020,729, 138960.

·          Wang, Y.;   Yao, Y.; Han, X.; Li, W.; Zhu, H.; Wang, L.; Sun, H.*; Kannan, K.*,   Organophosphate di- and tri-esters in indoor and outdoor dust from China and   its implications for human exposure. Science of the Total Environment 2020,700, 134502.

·          Wang, Y..;   Li, W.; Martinez-Moral, M. P.; Sun, H.; Kannan, K.*, Metabolites of   organophosphate esters in urine from the United States: Concentrations,   temporal variability, and exposure assessment. Environment International 2019,122, 213-221. (ESI highly cited   paper)

·          Wang, Y.;   Yao, Y.; Li, W.; Zhu, H.; Wang, L.; Sun, H.*; Kannan, K.*, A nationwide   survey of 19 organophosphate esters in soils from China: Spatial distribution   and hazard assessment. Science of the Total Environment 2019,671,   528-535.

·          Wang, Y.;   Zhu, H.; Kannan, K.*, A review of biomonitoring of phthalate exposures. Toxics   2019,7, (2), 21. (Toxics   2021 Best Paper Awards)

·          Wang, Y.;   Kannan, P.; Halden, R. U.; Kannan, K.*, A nationwide survey of 31   organophosphate esters in sewage sludge from the United States. Science of   the Total Environment 2019,655, 446-453.

·          Wang, Y.;   Kannan, K.*, Concentrations and dietary exposure to organophosphate esters in   foodstuffs from Albany, New York, United States. Journal of Agricultural   and Food Chemistry 2018,66, 13525-13532.

·          Wang, Y.;   Sun, H.*; Zhu, H.; Yao, Y.; Chen, H.; Ren, C.; Wu, F.; Kannan, K., Occurrence   and distribution of organophosphate flame retardants (OPFRs) in soil and   outdoor settled dust from a multi-waste recycling area in China. Science   of the Total Environment 2018,625, 1056-1064. (ESI highly cited paper)

·          Wang, Y.;   Gao, Z.; Shen, F.; Li, Y.; Zhang, S.; Ren, X.*; Hu, S.*, Physicochemical   characteristics and slow release performances of chlorpyrifos encapsulated by   poly(butyl acrylate-co-styrene) with the cross-linker ethylene glycol   dimethacrylate. Journal of Agricultural   and Food Chemistry2015, 63,   (21), 5196-5204.

·          Gong, X.; Zhang,   W.; Zhang, S.; Wang, Y.; Zhang, X.;   Lu, Y.; Sun, H.; Wang, L., Organophosphite antioxidants in mulch films are   important sources of organophosphate pollutants in farmlands. Environmental   Science & Technology2021, 55,   7398-7406.

·          Jian, H.; Yang,   F.; Gao, Y.; Zhen, K.; Tang, X.; Zhang, P.; Wang, Y.; Wang, C.; Sun, H.   Efficient removal of pyrene by biochar supported iron oxide in heterogeneous   fenton-like reaction via radicals and high-valent iron-oxo species.Separation   and Purification Technology2021, 265, 118518.

·          Wang, B.; Yao,   Y.; Wang, Y.; Chen, H.; Sun, H.   Per- and polyfluoroalkyl substances in outdoor and indoor dust from mainland   china: Contributions of unknown precursors and implications for human   exposure. Environmental Science & Technology2021.https://doi.org/10.1021/acs.est.0c08242

·          Wang, Q.; Zhao,   Z.; Ruan, Y.; Hua, X.; Chen, H.; Wang,   Y.; Jin, L.; Tsui, M.M.P.; Yao, Y.; Lam, P.K.S.; Sun, H. Occurrence and   seasonal distribution of legacy and emerging per- and polyfluoroalkyl   substances (pfass) in different environmental compartments from areas around   ski resorts in northern china. Journal   of Hazardous Materials2021,   407, 124400.

·          Wang, Y.; Yang,   X.; Liu, Y.; Zhang, Q.; Xiao, H.; Wang,   Y.; Yao, Y.; Sun, H. A low-volume air sampling method for legacy and   novel brominated flame retardants in indoor environment using a newly   developed sorbent mixture. Ecotoxicology   and Environmental Safety2021,   210, 111837.

·          Zhang, Q.; Yao,   Y.; Wang, Y.; Zhang, Q.; Cheng, Z.;   Li, Y.; Yang, X.; Wang, L.; Sun, H. Plant accumulation and transformation of   brominated and organophosphate flame retardants: A review. Environmental   Pollution2021, 288, 117742.

·          Li, M.; Yao,   Y.*; Wang, Y.; Bastiaensen, M.;   Covaci, A.; Sun, H., Organophosphate ester flame retardants and plasticizers   in a Chinese population: Significance of hydroxylated metabolites and   implication for human exposure. Environmental Pollution 2020,257,   113633.

·          Li, D.; Yao, Y.;   Sun, H.*; Wang, Y.; Pu, J.;   Calderon, R.; Alder, A. C.; Kannan, K., Artificial Sweeteners in Pig Feed: A   Worldwide Survey and Case Study in Pig Farms in Tianjin, China. Environmental   Science & Technology 2020, 54, 7, 4059–4067.

·          Gong, X.; Wang, Y.; Pu, J.; Zhang, J.; Sun, H.;   Wang, L.*, The environment behavior of organophosphate esters (OPEs) and   di-esters in wheat (Triticum aestivum L.): Uptake mechanism, in vivo   hydrolysis and subcellular distribution. Environment International 2020,135, 105405.

·          Zhu, H.; Wang, Y.; Sun, H.; Kannan, K.*,   Fertilizers as a Source of Melamine and Cyanuric Acid in Soils: A Nationwide   Survey in China. Environmental Science & Technology Letters 2019,6, (2), 55-61.

·          Li, W.; Wang, Y.; Kannan, K.*, Occurrence,   distribution and human exposure to 20 organophosphate esters in air, soil,   pine needles, river water, and dust samples collected around an airport in   New York state, United States. Environment International 2019,131,   105054.

·          Li, W.; Wang, Y.; Asimakopoulos, A. G.;   Covaci, A.; Gevao, B.; Johnson-Restrepo, B.; Kumosani, T. A.; Malarvannan,   G.; Moon, H. B.; Nakata, H.; Sinha, R. K.; Tran, T. M.; Kannan, K.*,   Organophosphate esters in indoor dust from 12 countries: Concentrations,   composition profiles, and human exposure. Environment International 2019,133, (Pt A), 105178.

·          Kim, U. J.; Wang, Y.; Li, W.; Kannan, K.*,   Occurrence of and human exposure to organophosphate flame   retardants/plasticizers in indoor air and dust from various microenvironments   in the United States. Environment International 2019,125,   342-349.

·          Ji, Y.; Wang, Y.; Yao, Y.*; Ren, C.; Lan, Z.;   Fang, X.; Zhang, K.; Sun, W.; Alder, A. C.; Sun, H., Occurrence of   organophosphate flame retardants in farmland soils from Northern China:   Primary source analysis and risk assessment. Environmental Pollution 2019,247, 832-838.

·          Zhu, H.; Sun,   H.*; Yao, Y.; Gan, Z.; Wang, Y.;   Kannan, K., Legacy and alternative brominated flame retardants in outdoor   dust and pine needles in mainland China: Spatial trends, dust-plant   partitioning and human exposure. Environmental Pollution 2018,243,   758-765.

·          Chen, H.; Yao,   Y.; Zhao, Z.*; Wang, Y.; Wang, Q.;   Ren, C.; Wang, B.; Sun, H.*; Alder, A. C.; Kannan, K., Multimedia   Distribution and Transfer of Per- and Polyfluoroalkyl Substances (PFASs)   Surrounding Two Fluorochemical Manufacturing Facilities in Fuxin, China. Environmental   Science & Technology 2018,52, (15), 8263-8271.

·          Du, Z.; Deng,   S.*; Liu, D.; Yao, X.; Wang, Y.;   Lu, X.; Wang, B.; Huang, J.; Wang, Y.; Xing, B.; Yu, G., Efficient adsorption   of PFOS and F53B from chrome plating wastewater and their subsequent   degradation in the regeneration process. Chemical Engineering Journal 2016,290, 405-413.

 

 


Awards

10 Access