张新颖

发布时间:  2019/08/31  许毅   浏览次数:   返回






职称:副教授(硕士生导师)

系所:环境科学与工程系

办公室:校本部东区环化楼414B室

电话:021-66137746

Email:zxyshu@shu.edu.cn

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主持国家自然科学基金和上海市自然科学基金项目各1项;主持完成浙江省水环境与海洋生物资源保护重点实验室开放基金1项、横向项目5项;骨干参加国家重点科技专项1项、国家自然科学基金3项和6项横向科研项目的研究工作。发表SCI论文50余篇,其中以第一和通讯作者发表30余篇;授权发明专利8项;指导1名硕士研究生获上海市优秀毕业生。

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2012年 上海大学环境与化工学院博士

2013-2015年 上海大学材料科学与工程学院博士后

2015.06-2019.02上海大学环境与化工学院讲师

2019.03至今上海大学环境与化工学院副教授

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主要从事土壤和水体污染控制方面的研究。具体研究方向为:

1、土壤有机与重金属污染的生物修复及其强化措施;

2、生物炭联合植物修复农田重金属污染;

3、重金属在土壤-地下水系统中的迁移转化及其风险管控;

4、油水分离膜的制备及性能研究。

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1.X. Zhang, Y. Zhang, X. Liu, C. Zhang, S. Dong, Q. Liu, M. Deng, Cd uptake by Phytolacca americana L. promoted by cornstalk biochar amendments in Cd-contaminated soil,Int J Phytoremediat, 2020,22, 251-258.

2.X. Zhang, J. Chen, X. Liu, Y. Zhang, Y. Zou, J. Yuan, Study on removal of pyrene by Agropyron cristatum L. in pyrene-Ni co-contaminated soil,Int J Phytoremediat, 2020,22, 313-321.

3.X. Zhang, C. Su, X. Liu, Z. Liu, X. Liang, Y. Zhang, Y. Feng, Effect of plant-growth-promoting rhizobacteria on phytoremediation efficiency of Scirpus triqueter in pyrene-Ni co-contaminated soils,Chemosphere, 2019,241, 125027-125027.

4.K. Zheng, J. Fan, X. Hu,X. Zhang*, X. Liu, J. Shen, Distribution by influence factors of pyrene removal in chemical enhancers assisted microbial phytoremediation of Scirpus triqueter in co-contaminated soils,Int J Phytoremediat, 2019,21, 1190-1196.

5.X. Liu, Y. Mao,X. Zhang*, P. Gu, Y. Niu, X. Chen, Effects of PASP/NTA and TS on the phytoremediation of pyrene-nickel contaminated soil by Bidens pilosa L,Chemosphere, 2019,237, 124502-124502.

6.B. Li,X. Zhang*,Superhydrophobic nylon cloth coated with modified silica used for oil-water separation,Environ Prog Sustain, 2019,38, e13051

7.Zhang, X.Y., Chen, J., Liu, X.Y., Gao, M.J., Chen, X.P., Huang, C. Nickel uptake and distribution in Agropyron cristatum L. in the presence of pyrene.Ecotoxicology and Environmental Safety, 2019,174, 370-376

8.Zhang, X., Chen, J., Liu, X., Chen, X., Liu, L., Niu, Y., Wang, R. The relief effects of organic acids on Scirpus triqueter L. under pyrene-lead stress.Environmental Science and Pollution Research, 2019,26(16), 15828-15837.

9.Zhang, X., Wang, C., Liu, X., Wang, J., Zhang, C., Wen, Y. A durable and high-flux composite coating nylon membrane for oil-water separation.Journal of Cleaner Production, 2018,193, 702-708.

10.Zhang, X., Wang, C., Liu, X., Wang, J., Zhang, C., Wen, Y. PVA/SiO2-coated stainless steel mesh with superhydrophilic-underwater superoleophobic for efficient oil-water separation.Desalination and Water Treatment, 2018,126, 157-163.

11.Zhang, X., Wang, C., Chai, W., Liu, X., Zhang, Y. Fabrication of Superhydrophobic Kapok Fiber Using CeO2 and Octadecyltrimethoxysilane.Environmental Engineering Science, 2018,35(7), 696-702.

12.Li, B.,Zhang, X.Superhydrophobic nylon cloth coated with modified silica used for oil-water separation.Environmental Progress & Sustainable Energy, 2019,38(3), 13051.

13.Liu, X., Cao, L.,Zhang, X., Chen, J., Huo, Z., Mao, Y. 2018. Influence of alkyl polyglucoside, citric acid, and nitrilotriacetic acid on phytoremediation in pyrene-Pb co-contaminated soils.International Journal of Phytoremediation,20(10), 1055-1061.

14.Zheng, K., Fan, J., Hu, X.,Zhang, X., Liu, X., Shen, J. 2019. Distribution by influence factors of pyrene removal in chemical enhancers assisted microbial phytoremediation of Scirpus triqueter in co-contaminated soils.International Journal of Phytoremediation, 1-7.

15.Zhang, X. Y., Liu, X. Y., Hu, X., Tao, K. Y., Cao, L. Y., & Hu, X. X.Salix integra Combined with Pseudomonas aeruginosa to Restore Diesel Contaminated Soils.Journal of Environmental Engineering,2017, 143(9): 04017037.

16.Zhang, X. Y., Wang, C. Q., Chai, W. B., Liu, X. Y., Xu, Y., & Zhou, S. W. Kapok fiber as a natural source for fabrication of oil absorbent.Journal of Chemical Technology and Biotechnology,2017,92(7): 1613-1619.

17.Wei, J.,Zhang, X., Liu, X., Liang, X., & Chen, X.Influence of root components of celery on pyrene bioaccessibility, soil enzymes and microbial communities in pyrene and pyrene-diesel spiked soils.Science of the Total Environment,2017, 599–600: 50-57.

18.Liu, X. Y., Cao, L. Y., Wang, Q.,Zhang, X. Y., & Hu, X. X. Effect of tea saponin on phytoremediation of Cd and pyrene in contaminated soils by Lolium multiflorum.Environmental Science and Pollution Research,2017, 24(23): 18946-18952.

19.Chen, T. R., Liu, X. Y.*,Zhang, X. Y.*, Hu, X. X., & Cao, L. Y. (2017). Assessment of Pb and pyrene accumulation in Scirpus triqueter assisted by combined alkyl polyglucoside and nitrilotriacetic acid application. Environmental Science and Pollution Research, 24(23), 19194-19200.

20.Chen, X., Li, H., Liu, X.,Zhang, X., Liang, X., He, C., & Cao, L. Combined remediation of pyrene-contaminated soil with a coupled system of persulfate oxidation and phytoremediation with ryegrass.Environmental Science and Pollution Research,2016,23(20): 20672-20679.

21.Chai, W., Liu, X.,Zhang, X., Li, B., Yin, T., & Zou, J. Preparation and characterization of polypropylene fiber-grafted polybutylmethacrylate as oil sorbent.Desalination and Water Treatment,2016, 57(39): 18560-18571.

22.Zhang, X., Wang, J., Liu, X., Gu, L., Hou, Y., He, C., Chen, X., Liang, X. Potential of Sagittaria trifolia for Phytoremediation of Diesel, International Journal Phytoremediation, 2015, 17, 1220-1226.

23.Hou, Y., Liu, X.,Zhang, X., Chen, X., Tao, K., Chen, X., Liang, X., He, C. Identification of Scirpus triqueter root exudates and the effects of organic acids on desorption and bioavailability of pyrene and lead in co-contaminated wetland soils, Environmental Science and Pollution Research, 2015, 22, 17780-17788.

24.Li, B., Liu, X.,Zhang, X., Chai, W. Stainless steel mesh coated with silica for oil-water separation, European Polymer Journal, 2015, 73, 374-379.

25.Li, B., Liu, X.,Zhang, X., Chai, W., Ma, Y., Tao, J. Facile preparation of graphene-coated polyurethane sponge with superhydrophobic/superoleophilic properties, Journal of Polymer Research, 2015, 22, 1-6.

26.Li, B., Liu, X.,Zhang,X., Zou, J., Chai, W., Lou, Y. Rapid adsorption for oil using superhydrophobic and superoleophilic polyurethane sponge, Journal of Chemical Technology and Biotechnology, 2015, 90, 2106-2112.

27.Li, B., Liu, X.,Zhang, X., Zou, J., Chai, W., Xu, J. Oil-absorbent polyurethane sponge coated with KH-570-modified graphene, Journal of Applied Polymer Science, 2015, 132, 41821.

28.Zhang, X., Chen, L., Liu, X., Wang, C., Chen, X., Xu, G., Deng, K. 2014a. Synergic degradation of diesel by Scirpus triqueter and its endophytic bacteria.Environmental Science and Pollution Research,21(13), 8198-8205.

29.Zhang, X., Liu, X., Chai, W., Wei, J., Wang, Q., Li, B., Li, H. 2013a. The use of proteomic analysis for exploring the phytoremediation mechanism of Scirpus triqueter to pyrene.Journal of Hazardous Materials,260, 1001-1007.

30.Zhang, X., Liu, X., Liu, S., Liu, F., Chen, L., Xu, G., Zhong, C., Su, P., Cao, Z. 2012a. Response Characteristics of Scirpus Triqueter and Its Rhizosphere to Pyrene Contaminated Soils at Different Growth Stages.International Journal of Phytoremediation,14(7), 691-702.

31.Zhang, X., Liu, X., Zhong, C., Cao, Z., Liu, F., Chen, L., Liu, S., Hu, Y. 2012b. Soil microbial community response to pyrene at the presence of Scirpus triqueter.European Journal of Soil Biology,50, 44-50.

32.Zhang, X., Liu, X., Liu, S., Liu, F., Chen, L., Xu, G., Zhong, C., Su, P., Cao, Z. 2011. Responses of Scirpus triqueter, soil enzymes and microbial community during phytoremediation of pyrene contaminated soil in simulated wetland.Journal of Hazardous Materials,193, 45-51.

33.Zhang, X., Liu, X., Wang, Q., Chen, X., Li, H., Wei, J., Xu, G. 2014b. Diesel degradation potential of endophytic bacteria isolated from Scirpus triqueter.International Biodeterioration & Biodegradation,87, 99-105.

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1. 2018年国家自然科学基金青年基金课题“生物炭影响典型超富集植物吸收土壤Cd的作用机制”,项目编号:21806100

2. 2018年上海市自然科学基金课题“生物炭-超富集植物联合修复Cd污染农田土壤及其作用机制”,项目编号:18ZR1414100

3. 2015年浙江省水环境与海洋生物资源保护重点实验室开放基金课题“不同烧制温度下菠萝皮生物炭的性质及其对水溶液中Cr6+-芘的吸附性能研究”,项目编号:KF201503

4. 2017年国家自然科学基金课题“长江中下游典型湖泊N2O产生的关键途径与微生物驱动机制研究”,项目编号:41773076

5. 2014年国家自然科学基金课题“吴淞口湿地优势植物体系协同去除石油类污染物的作用机制”,项目编号:41373097

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2019年获2017-2018年度上海大学三八红旗集体(骨干)

2018年获2017-2018学年上海大学环境与化学工程学院优秀学业导师

2017年获上海大学校级教学成果二等奖

2017年获上海大学校级优秀毕业论文指导教师

2017年获获2016-2017学年上海大学环境与化学工程学院优秀学业导师

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本科生课程

物理性污染控制、土壤污染与防治、环境材料学、环境监测实验、环境与绿色发展

研究生课程

土壤污染防治技术、污染环境生物修复、环境工程创新技术



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