张承东 - 北京师范大学

个人简介

教育经历 1998，南京大学获环境化学学士学位 2000，南京大学获环境科学硕士学位 2006，美国新泽西理工获环境科学博士学位工作经历 2006-2013 南开大学环境科学与工程学院引进人才，副教授、硕士生导师 2013-2018 南开大学环境科学与工程学院研究员、博士生导师 2018-至今北京师范大学引进人才，教授、博士生导师荣誉与奖励 2021北京师范大学优秀新生导师 2017年经推荐作为中国女科学家代表参加美国化学协会的编辑座谈 2016年经遴选作为外方组委会推荐的天津市三名青年科学家代表之一参加夏季达沃斯论坛（青年科学家） 2013年《石油污染土壤革新修复技术与应用》获得天津市科学技术进步奖二等奖 2010年6月，获中国化学会第二十七届学术年会优秀论文奖 2006年4月，由化学和环境科学学院提名, 经新泽西理工学院研究委员会评定, 作为优秀学生研究代表参加学生研究成果展示会 2004年8月在美国费城全美化学协会会议上做关于“通过乙酰胆碱脂酶抑制方法提高有机磷检测的研究”和“离子态液体中酶催化合成二酞的研究”的报告均被美国ACS期刊《化学和工程新闻》（Chemical & EngineeringNews）引用及报道（Nov 8, 2004; Sep 13, 2004） 2004年至2005年于美国新泽西理工学院获金纪念奖学金 2003年4月在美国东部地区近百所著名院校中被当选为优秀研究生代表参加Pfizer公司举办的绿色化学研讨会

研究领域

环境微生物、环境毒理、环境修复等

近期论文

查看导师新发文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

Huiru, Zhao; Meiling, Wang; Yueting, Cui; Chengdong, Zhang*. Can we arrest theevolution of antibiotic resistance? The differences between the effects ofsilver nanoparticles and silver ions. Environmental Science & Technology, 2022, in press. Huiru Zhao, Hongyan Meng, Qiurong Zhang,Yining Wu, Haotian Chen, Xiaoman Jiang, ChengdongZhang*.Ligandbiodegradation-induced surface reconstruction of magnetite nanoparticles:Potentially overlooked toxicity. Environmental Science: Nano, 2022, 9, 313-323. MingzhuLi, Chengdong Zhang*. Are silvernanoparticles better than triclosan as a daily antimicrobial? Answers from theperspectives of gut microbiome disruption and pathogenicity. Science of theTotal Environment, 2021,756, 147583-97. Qiurong Zhang, Tian Xia, Chendong Zhang.*Chronic exposure to titanium dioxide nanoparticles induces commensal-to-pathogen transition in Escherichia coli, Environmental Science & Technology, 2020, 54,13186?13196. Qiurong Zhang, Chengdong Zhang.* Chronic exposure to low concentration of graphene oxide increases bacterial pathogenicity via the envelope stress response. Environmental Science &Technology, 2020, 54,12412-12422. Chengdong Zhang*, Rui Sun, TianXia. Adaptive/resistance to antimicrobial nanoparticles: Will it be a problem? Nano today, 2020, 34, 100909. Chengdong Zhang*, Yaqi Wang, Huiru Zhao. Is graphene oxide a chemoattractant? Nano Letters, 2020, 20, 1455-1460. Qiurong Zhang, Yueting Cui, Chanhui Gu, Chengdong Zhang*. Potential concerns in fullerene application to water treatment related to transformation, cellular uptake and intracellular catalysis. Science of the Total Environment, 2020, 728, 138754-65. Chengdong Zhang*, Yating Wang, Junjie Ma, Qiurong Zhang, Fang Wang, Xinhui Liu, Tian Xia. Black phosphorus for fighting antibiotic-resistant bacteria: What is known and what is missing. Science of the Total Environment, 2020,721,137740-52. Mingzhu Li, Jing Li, Jing Sun, Yuning He, Pengjia Chen, Chengdong Zhang*. Is sulfidation a true detoxification process forsilver nanoparticles? From the perspective of chronic exposure. Environmental Science: Nano, 2019, 6, 3611 - 3624. Qiurong Zhang, Meiling Wang, Chuanhui Gu, Chengdong Zhang*. Water disinfection processes change the cytotoxicity of C60 fullerene: Reactions at the nano-bio interface. Water Research, 2019, 163, 114867-78. Mingzhu Li, Yuning He, Jing Sun, Jing Li, Junhong Bai, and Chengdong Zhang*. Chronic exposure to an environmentally relevant triclosan concentration induces persistent triclosan resistance but reversible antibiotic tolerance in Escherichia coli. Environmental Science & Technology, 2019, 53, 3277-3286. Huiru Zhao, Chengdong Zhang*, Yaqi Wang,Wei Chen, Pedro JJ Alvarez. Self-damaging aerobic reduction of graphene oxideby Escherichia coli: Role of GO-mediated extracellular superoxide formation. Environmental Science &Technology, 2018, 52(21), 12783-12791. Qiurong Zhang, Xiaolei Liu, Hongyan Meng, Sijin Liu and Chengdong Zhang*, Reduction pathway-dependent cytotoxicity ofreduced graphene oxide. Environmental Science: Nano, 2018, 5, 1361-1371. （hot topic paper） Ming Gao, Beibei Zhao, Minjun Chen, Yun Liu, Ming Xu, Zhe Wang, Sijin Liu*, Chengdong Zhang*. Nrf-2-driven longnoncoding RNA ODRUL contributes to modulating silver nanoparticle-inducedeffects on erythroid cells. Biomaterials, 2017, 130, 14-27. Chengdong Zhang*, Xiaoyan Chen. Differenteffects of sonication pretreatment on carbon nanomaterials under low hydrogen peroxide concentrations. Ultrasonics Sonochemistry, 2017, 34, 19-26. Mingzhu Li, Chengdong Zhang*. γ-Fe2O3 nanoparticle-facilitated Bisphenol A degradation by white rot fungus. Science Bulletin, 2016, 61, 468-472. Chengdong Zhang*, Mingzhu Li, XuXu, Na Liu*. Effects of carbon nanotubes on atrazine biodegradation by Arthrobacter sp. Journal of Hazardous Materials, 2015, 287, 1-6. Rang Pang, Mingzhu Li, Chengdong Zhang*.Degradation of phenolic compounds by laccase immobilized on carbon nanomaterials: Diffusional limitation investigation. Talanta, 2015, 131, 38-45. Chengdong Zhang*, Silong Chen, Pedro JJ Alvarez, Wei Chen. Reduced graphene oxide enhances horseradish peroxidase stability by servingas radical scavenger and redox mediator. Carbon, 2015, 94, 531-538. Chengdong Zhang*, Mingzhu Li, Xiaoyan Chen, MingchunLi*. Edible fungus degrade Bisphenol A with no harmful effect on its fatty acid composition. Ecotoxicology and Environmental Safety, 2015, 118, 126-132. Chengdong Zhang*, Wei Chen, PedroJ J Alvarez*. Manganese peroxidase degrades pristine but not surface-oxidized (carboxylated) single-walled carbon nanotubes. Environmental Science & Technology, 2014,48, 7918?7923. C. Zhang*，S.V. Malhotra, A.J. Francis. Toxicity ofionic liquids to Clostridium sp. andeffects on uranium biosorption. Journal of Hazardous Materials, 2014, 264, 246-253. MeiqingS un, Qilin Yu, Mengyuan Hu, Zhenwei Hao,Chengdong Zhang* and Mingchun Li*. Lead sulfide nanoparticlesinduce increased cell wall chitin content and induce apoptosis in yeast Saccharomyces cerevisiae. Journal of Hazardous Materials, 2014, 273, 7-16. Meiqing Sun, Qilin Yu, Ming Liu, Xiaoyan Chen, Zhe Liu, Hao Zhou, YingjinYuan, Lu Liu*, Mingchun Li*, Chengdong Zhang*. Anovel toxicity mechanism of CdSe nanoparticles to Saccharomyces cerevisiae: Enhancement of vacuolar membrane permeabilization (VMP). Chemico-Biological Interactions, 2014, 220, 208-213. Chengdong Zhang*, Jianchao Qi, Yiping Cao. Synergistic effect of yeast-bacterial co-culture on bioremediation of oil contaminated soil. Bioremediation Journal, 2014, 18, 136-146. Jun Qiao, Chengdong Zhang*, Shuiming Luo, Wei Chen*. Bioremediation of highly contaminated oilfield soil: Bioaugmentation forenhancing aromatic compounds removal. Frontiers of Environmental Science & Engineering, 2014, 8(2), 293-304. C. Zhang*, C.J. Dodge, S.V. Malhotra, A. J. Francis. Bioreduction and precipitation of uranium in ionicliquid aqueous solution by Clostridium sp. Bioresource Technology, 2013, 136, 752-756. Chengdong Zhang*, Shuiming Luo,Wei Chen. Activity of catalase adsorbed to carbon nanotubes: Effects of carbon nanotube surface properties. Talanta, 2013, 113,142-147. C. Zhang, S.V. Malhotra, A.J. Francis*. Toxicity of imidazolium-and pyridinium- based ionic liquids and the co-metabolic degradation of N-ethylpyridinium tetrafluoroborate. Chemosphere, 2011, 82, 1690-1695. Zhang, C. and A.J. Francis. Interactions of ionic liquids with uranium and itsbioreduction. In The New Uranium Mining Boom, (Eds) B. Merkel and M. Schipek.Springer., Germany. 2011, pp 455-463.（英文书章节） C. Zhang, H. Wang, S. V.Malhotra, C.J. Dodge, A. J. Francis*. Biodegradation of pyridinium based ionicliquids by an axenic culture of soil Corynebacteria. Green Chemistry, 2010, 12, 851-858. Chengdong Zhang and Sanjay V. Malhotra*. Increased paraoxon detection by acetylcholinesterase inactivation with ionic liquid additives. Talanta, 2005, 67(3), 560-563.

学术兼职

中国环境科学学会环境化学分会第五届委员(2017年当选)。九三学社南开大学第五届委员会委员。国家自然科学基金、省级自然科学基金、教育部留学回国人员科研启动基金、地区政府环境咨询项目评审及教育部学位评审专家。天津污染场地修复产业技术创新战略联盟专家委员会成员（2014年9月—2017年9月）。