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南开大学环境科学与工程学院



王翠苹

姓名:王翠苹
职称职务:教授,博导
研究领域:污染物生物修复;纳米、矿物材料对污染物控制与修复技术;纳米材料生物有效性
联系电话:
邮箱:wangcp@nankai.edu.cn
 

教育背景

2006.7-2008.7 南开大学环境科学与工程学院, 博士后
2003.9-2006.6 中国科学院广州地球化学研究所,获理学博士学位
2000.9-2003.6 中南工学院, 获工学硕士学位
1996.9-2000.6 河北理工大学,获工学学士学位

科研教学经历

2015.1-2016.1  美国麻省大学,访问学者
2013.12-       南开大学环境科学与工程学院,教授
2008.12-2013.12南开大学环境科学与工程学院,副教授

学术与社会任职

<J. Hazard. Mater.>,<Chem. Eng. J.>, <J. Mol. Catal. A: Chem.>,<Environ. Sci. Pollut. Res.>, <Ind. Eng. Chem. Res.>,<Mar. Pollut. Bullet.>等重要期刊审稿人。

科研项目

1.腐殖酸与铁矿物对在淹水干旱交替作用下土壤-植物根际微域中多溴联苯醚迁移行为的影响机制. 国家自然科学基金面上项目, 2017-2020, 主持.
2.电气石强化植物根系微生物对重金属与多溴联苯醚复合污染土壤修复. 天津市重点项目, 2017-2020, 主持.
3.铁电气石类芬顿辅助微生物对土壤多溴联苯醚污染修复. 天津市面上项目,2013-2015, 主持.
4.电气石-微生物联合修复土壤中多环芳烃污染及机理研究. 国家自然科学基金, 2010-2013, 主持.
5.电气石修复土壤中多环芳烃污染. 南开大学亚洲研究中心项目, 2010-2012, 主持.
6.电气石修复土壤污染. 南开大学创新基金, 2008-2010, 主持.
7.土壤复合有机污染特征、界面行为及修复技术原理. 国家科技部“973”基础研究项目,2014-2018, 主要骨干.
8.农田重金属污染修复示范. 农业部, 2013-2016, 主要骨干(第一参加人).
9.滨海新区及周边地区海岸带生态系统保护与恢复技术及示范, 国家科技支撑项目“”, 2012-2015,主要骨干.
10.原位电动生物技术修复多环芳烃污染土壤,国家高技术项目(863),2008-2010,主要骨干(第一参加人).
11.利用共代谢机制修复汽油与三氯乙烯复合污染土壤,天津市基础研究重点项目,2010-2013, 要骨干.
12. 土壤典型有机污染物的界面过程及修复技术原理,国家基金重点项目,2008-2011, 参与.

 

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学术论著

发表学术论文50余篇。主要代表性论文:

1.C.P. Wang*, C.X. Ma, W.L. Jia, D. Wang, H.W. Sun, B.S. Xing. Combined effects of  dissolved humic acids and tourmaline on the BDE-153 in Lactuca Sativa. Envirion. Pollut., 2017,231: 68-77.
2.C.P. Wang*, W.L. Jia, D. Wang, Organic matter in surface sediments from the Gulf of Mexico and South China Sea: Compositions, distributions and sources. Mar. Pollut. Bullet., 2017, 120: 174-183.
3.N. Li, J.Q. Zhang, C.P. Wang*, H.W. Sun. Enhanced photocatalytic degradation of tetraprombisphenol A by toumaline-TiO2 composite catalyst. J. Mat. Sci. 2017, 52: 6937-6949.
4.W.L. Jia, B.L. Wang, C.P. Wang*, H.W. Sun. Tourmaline and biochar for the remediation for acid soil polluted with heavy metals. J. Environ. Cem. Eng., 2017, 4: 2107-2114.
 5.J. Li, C.P. Wang* D. Wang, Z.Y. Zhou, H.W. Sun, S. Zhai. A novel technology for remediation of PBDEs contaminated soils using tourmaline-catalyzed Fenton-like oxidation combined with P. chrysosporium. Chem. Eng. J., 2016, 296, 319–328.
6.L. Yu, C.P. Wang*, F.Y. Chen, J.Q. Zhang, Y.F. Ruan, J.Y. Xu. Investigating the synergistic effects in tourmaline/TiO2-based heterogeneous photocatalysis: underlying mechanism insights. J. Mol. Catal. A: Chem., 2016, 411: 1-8.
7.N. LI, X. Li, C.P. Wang*, X.P. Shi; J.T. Liu. Desorption of Cd(II) from Tourmaline at Acidic Condition: Kinetics, Equilibrium and Thermodynamics. J. Environ. Chem. Eng., 2016, 4, 30-36.
8.C.P. Wang, Z.Y, Zhang, H.B. Liu, H.W. Sun. Electrokinetic-assisted bioremediation of field soil with historic polycyclic aromatic hydrocarbon contamination. Env. Eng. Sci., 2016, 33(1): 44-52.
9.Z.Y. Zhang, C.P. Wang*, J. Li, B.L. Wang, J.Y. Wu, H.W. Sun. Enhanced bioremediation soil from Tianjin, China, contaminated with polybrominated diethyl ethers. Environ. Sci. Pollut. Res., 2014, 21: 14037–14046.
10.C.P. Wang*, J. Li, Y. Jiang, Z.Y. Zhang. Enhanced bioremediation of field agricultural soils contaminated with PAHs and OCPs. Int. J. Environ. Res., 2014, 8:1271-1278.
11.C.P. Wang*, L. Yu, Z.Y. Zhang, B.L. Wang, H.W. Sun. Tourmaline combined with Phanerochaete chrysosporium to remediate agricultural soil contaminated with PAHs and OCPs. J. Hazard. Mater. 2014, 264: 439–448.
12.C.P. Wang, H.B. Liu, H.W. Sun*. Degradation of PAHs in soil by Lasiodiplodia theobromae and enhanced Benzo[a]pyrene degradation by the addition of TW-80. Environ. Sci. Pollut. Res., 2014, 21: 10614-10625.
13.C.P. Wang, H.W. Sun*, H.B. Liu, B.L. Wang. Biodegradation of pyrene by Phanerochaete chrysosporium and enzyme activities in soils: Effect of SOM, sterilization and aging. J. Environ. Sci., 2014, 26: 1–10.
14.L. Yu, C.P. Wang*, X.H. Ren, H.W. Sun. Catalytic oxidative degradation of bisphenol A using an ultrasonic-assisted tourmaline-based system: Influence factors and mechanism study. Chem. Eng. J., 2014, 252: 346–354.
15.C.P. Wang*, Y.W. Zhang, L. Yu, Z.Y. Zhang, H.W. Sun. Oxidative degradation of azo dyes using tourmaline. J. Hazard. Mater., 2013, 260: 851–859.
16.B.L. Wang, C.P. Wang*. Remediation of alkaline soil with heavy metal contamination using tourmaline as a novel amendment. J. Environ. Chem. Eng., 2014, 2: 1281–1286.
17.H.B. Liu, C.P. Wang*, J.T. Liu, B.L. Wang, H.W. Sun. Competitive adsorption of Cd (II), Zn(II) and Ni(II) from their binary and ternary acidic systems using tourmaline. J. Environ. Manage., 2013, 128: 727-734.
18.C.P. Wang*, J.T. Liu, B.L. Wang, Z.Y. Zhang, H.W. Sun, Adsorption of Cd(II), Ni(II), and Zn(II) by tourmaline at acidic conditions: Kinetics, thermodynamics, and mechanism. Ind. Eng. Chem. Res., 2012: 51: 4397− 4406.
19.C.P. Wang*, J.T. Liu, B.L. Wang, Z.Y. Zhang, H.W. Sun, Adsorption of Cd(II) from acidic aqueous   solutions by tourmaline as a novel material, Chin. Sci. Bullet., 2012, 57: 3218−3225.
20.C.P. Wang*, H.W. Sun, J.Z. Wu, Y. Chang, Adsorption of Pb(II) Ion from aqueous solutions by tourmaline as a novel adsorbent. Ind. Eng. Chem. Res., 2011, 50: 8515–8523.
21.C.P. Wang*, H.W. Sun, Z.G. Song, PAHs distribution in marine sediments associated with gas hydrate and oil seepage from the Gulf of Mexico. Mar. Pollut. Bullet., 2011, 62: 2714–2723.
22.C.P. Wang, H.W. Sun*, J.M. Li, Y.M. Li, Q.M. Zhang, Enzyme activities during degradation of polycyclic aromatic hydrocarbons by white rot fungus Phanerochaete chrysosporium in soils. Chemosphere, 2009, 77: 733–738.
23.C.P. Wang*, H.W. Sun, Z.G. Song. Distribution of organic matters in surface sediments associated with gas hydrate from the Gulf of Mexico. Acta Oceanol. Sinica., 2008, 12: 1–6
24.王翠苹*、王宝琳、刘婧婷、余力、孙红文、吴济舟,新型材料电气石对酸性溶液中镉离子的吸附,科学通报,2012,  57: 1992-1999 (SCI).
25.Hongwen Sun, Cuiping Wang, Chong Huo, Zunlong Zhou. SPMD assisted desorption of pyrene from soils and its relationship to bioavailbility. Environ. Toxic. Chem., 2008, 27: 103–111.
26.Zhiguang Song, Cuiping Wang, The biomarkers of 2, 6, 10, 15, 19-pentamethylicosenes and their carbon isotopic composition in the sediments from the Gulf of Mexico. Chinese Sci. Bullet., 2006, 51, 1736–1740.
27.Wei Xu, Cuiping Wang, Haibin Liu, Zhiyuan Zhang, Hongwen Sun*. A laboratory feasibility study on a new electrokinetic nutrient injection pattern and bioremediation of phenanthrene in a clayey soil. J. Hazard. Mater., 2010, 184:798–804.
28.Jizhou Wu, Hongwen Sun*, Cuiping Wang. Binding of pyrene to different molecular weight fractions of dissolved organic matter: Effects of chemical composition and steric conformation. Chem. Res. Chinese Universities, 2012, 28(4), 1-7.
29.Hongwen Sun*, Jieming Li, Cuiping Wang, Enhanced microbial removal of pyrene in soils in the presence of earthworms. Soil and Sediment Contamination, 20,617–630, 2011.
30.Xuebo Qin, Hongwen Sun*,Cuiping Wang, Tieheng Sun, Impacts of carb bioturbation on the fate of polycyclic aromatic hydrocarbons in sediment from the Beitang estuary of Tianjin, China. Environ.l Toxic. Chem., 2010, 29, 1248–1255.
 31.王翠苹、许伟、孙红文*,均匀电场下多环芳烃在土壤中的迁移,环境工程学报, 7, 36-43, 2013.
32.王宝琳、王翠苹*、孙红文,电气石和沸石对土壤—小麦幼苗系统中重金属行为的影响,环境化学, 32(9): 1700-1705, 2013.
33.张志远,王翠苹,孙红文*. 可可毛色二孢菌对焦化厂土壤多环芳烃污染修复,环境科学, 33, 2832–2839, 2012. 

申请发明专利10项。
 
参与编写著作3部:
《生物技术在核工业中的应用》;《环境化学》电子教材;译著:《Environmental Chemistry》(Manahan H E, 9th edition, CRC Press)。


 

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