崔昕毅 副教授

来源:南京大学生物地球化学与环境修复团队发布时间:2016-08-30编辑:韩永和



崔昕毅

副教授

邮件lizzycui@nju.edu.cn

办公室:钱盘生楼B503

电话:02589680633



研究方向

有机污染物生物有效性与人体健康风险评价

有机污染物环境迁移与转化

新材料的环境应用与效应


教育与科研经历

2015/08至今         南京大学环境学院    副教授

2012/072015/07    南京大学环境学院    副研究员

2010/082012/06    美国加州大学河滨分校环境科学系    博士后

2004/092010/06    美国加州大学河滨分校浙江大学    联合培养博士

1999/092004/06    大连理工大学化学工程与工艺(英语强化)    学士


主持/参与项目

[1]  国家自然科学基金面上项目(21577055): 室内灰尘中新型阻燃剂生物有效性体外评价方法的优化研究, 2016/01–2019/12, 68万元, 主持;

[2]  国家自然科学基金青年科学基金项目(21307055): 江苏省化工企业污染场地中持久性有机物的生物/人体有效性研究及环境风险评价, 2014/01–2016/12, 24万元, 主持;

[3]  江苏省自然科学基金青年科学基金项目(BK20130558): 仿生学技术/人体胃肠模拟液体外法研究化工企业污染场地中持久性有机物的生物/人体有效性, 2013/07–2016/07, 20万元, 主持;

[4]  国家自然科学基金重点项目(21637002): 土壤水稻体系中砷迁移与阻控及其健康风险研究, 2017/012021/12, 291万元, 参与


发表论文

[36]  Li, C .; Zhang, R.; Li, Y.; Zhang, S.; Gao, P.; Cui, X *.; Ma, L. Q *., Relative bioavailability and bioaccessibility of PCBs in soils based on a mouse model and Tenax-improved physiologically-based extraction test. Chemosphere 2017, 186, 709-715. 

[35]  Xiang, P., R. Y. Liu, C. Li, P. Gao, X. Y. Cui*, and L. Q. Ma*. 2017. Effects of organophosphorus flame retardant TDCPP on normal human corneal epithelial cells: Implications for human health. Environmental Pollution. 230: 2230.

[34]  Zhang, S., C. Li, Y. Li, R. Zhang, P. Gao, X. Cui*, and L. Q. Ma. 2017. Bioaccessibility of PAHs in contaminated soils: Comparison of five in vitro methods with Tenax as a sorption sink. Science of The Total Environment. 601–602: 968–974.

[33]  Xiang, P., R. Y. Liu, H. J. Sun, Y. W. Yang, X. Y. Cui*, and L. Q. Ma*. 2017. Effects of novel brominated flame retardant TBPH and its metabolite TBMEHP to human vascular endothelial cells: Implication for human health risks. Environmental Research. 156: 834–842.

[32]  Li, S. W., H. J. Sun, G.  Wang, X. Y. Cui, A. L. Juhasz, H. B. Li*, and L. Q. Ma*. 2017.  Lead relative bioavailability in soils based on different endpoints of a mouse  model. Journal of Hazardous Materials. 326: 94–100.

[31]  Li, K., P. Gao, P. Xiang, X. Zhang, X. Cui*, and L. Q. Ma*. 2017. Molecular mechanisms of PFOA-induced toxicity in animals and humans: Implications for health risks. Environment International. 99: 43–55.

[30]  Li, S. W., H. B. Li, J. Luo, H. M. Li, X. Qian, M. M. Liu, J. Bi, X. Y. Cui*, and L. Q. Ma*. 2016. Influence of pollution control on lead inhalation bioaccessibility in PM2.5: A case study of  2014 Youth Olympic Games in Nanjing. Environment International. 94: 6975.

[29]  Wang  C., X. Y. Cui*, Y. Li*, H. Li, L. Huang, J. Bi, J. Luo, L. Q. Ma, W. Zhou, Y.  Cao, B. Wang, and F. Miao*. 2016. A label-free and portable graphene FET aptasensor for children blood lead detection. Scientific Reports. 6: 21711.

[28]  Cui, X. Y., P. Xiang, R. W. He, A. L. Juhasz, and L. Q. Ma*. 2016. Advances in in vitro methods to evaluate oral bioaccessibility of PAHs and PBDEs in  environmental matrices. Chemosphere. 150: 378–389.

[27]  Li, C., H. J. Sun, A. L. Juhasz, X. Cui*, and L. Q. Ma*. 2016. Prediction of DDTr relative bioavailability in historically-contaminated soils using a Tenax-improved physiologically-based extraction test (TI-PBET). Environmental Science & Technology. 50: 11181125.

[26]  He, R., Y. Li, P. Xiang, C. Li, C. Zhou, S. Zhang, X. Cui*, and L. Q. Ma*. 2016.  Organophosphorus flame retardants and phthalate esters in indoor dust  from different microenvironments: Bioaccessibility and risk assessment. Chemosphere. 150: 528–535.

[25]  Li,  K., C. Li, N. Y. Yu, A. L. Juhasz, X. Y. Cui*, and L. Q. Ma*. 2015. In vivo bioavailability and in vitro bioaccessibility of perfluorooctanoic acid (PFOA)  in food matrices: Correlation analysis and method development. Environmental Science & Technology. 49: 150158.

[24]  Li, C., X. Y. Cui*, Y. Y. Fan, Y. Teng, Z. R.  Nan, and L. Q. Ma. 2015. Tenax as sorption sink for in vitro bioaccessibility  measurement of polycyclic aromatic hydrocarbons in soils. Environmental Pollution. 196:  4752.

[23]  Cui, X. Y., S. W. Li, S. J. Zhang, Y. Y. Fan, and L. Q. Ma*. 2015. Toxic metals in childrens toys and jewelry: Coupling bioaccessibility with  risk assessment. Environmental Pollution. 200: 7784.

[22]  Fan, Y. Y., J. L. Zheng, J.  H. Ren, J. Luo, X. Y. Cui*, and L. Q. Ma*. 2014. Effects of storage temperature  and duration on release of antimony and bisphenol A from polyethylene terephthalate drinking water bottles of China. Environmental Pollution. 192: 113120.

[21]  Cui, X., L.J. Biao, and J. Gan*. 2013. Solid-phase microextraction (SPME) with stable isotope calibration for measuring  bioavailability of hydrophobic organic contaminants. Environmental Science & Technology. 47:  98339840.

[20Cui, X. and J. Gan*. 2013. Comparing sorption behavior of pyrethroids between formulated and natural sediments. Environmental Toxicology and Chemistry.  32: 10331039.

[19]  Cui, X., P. Mayer, and J. Gan*. 2013. Methods to assess bioavailability of hydrophobic organic contaminants: Principles, operations, and  limitations. Environmental Pollution. 172: 223234.

[18] Cui, X. Y.*, F. Jia, Y. X.  Chen, and J. Gan. 2011. Influence of single-walled carbon nanotubes on microbial  availability of phenanthrene in sediment. Ecotoxicology. 20: 12771285. 

[17]  Cui, X.*, W. Hunter, Y. Yang, Y. Chen, and J. Gan. 2011. Biodegradation of  pyrene in sand, silt and clay fractions of sediment. Biodegradation. 22: 297307.

[16]  Cui, X., W. Hunter, Y. Yang, Y. Chen, and J.  Gan*. 2010. Bioavailability of sorbed phenanthrene and permethrin in sediments to Chironomus tentans. Aquatic Toxicology. 98: 8390.

[15]  Cui, X., H. Wang, L. Lou, Y. Chen*, Y. Yu, J. Shi, L. Xu, and M. I. Khan. 2009. Sorption  and genotoxicity of sediment -associated pentachlorophenol and pyrene influenced  by crop residue ash. Journal of Soils and Sediments. 9: 604612.

[14]  Wang, J., S. Li, X. Cui, H. Li*, X. Qian*, C. Wang, and Y. Sun. 2016. Bioaccessibility, sources and  health risk assessment of trace metals in urban park dust in Nanjing, Southeast  China. Ecotoxicology and Environmental Safety. 128: 161–170.

[13]  Xiang, P., R. Y. Liu, H. J. Sun, Y. H. Han, R. W. He, X. Y. Cui, and L. Q. Ma*. 2016.  Molecular mechanisms of dust-induced toxicity in human corneal  epithelial cells: Water and organic extract of office and house dust. Environment International. 92–93: 348–356.

[12]  Xiang, P., R. W. He, Y. H. Han, H. J. Sun, X. Y. Cui, and L. Q. Ma*. 2016.  Mechanisms of housedust-induced toxicity in primary human corneal  epithelial cells: Oxidative stress, pro-inflammatory response and  mitochondrial dysfunction. Environment International. 89–90: 30–37.

[11]  Li, J., K. Li, X. Y. Cui, N. T. Basta, L. P. Li, H. B. Li*,  and L. Q. Ma*. 2015. In vitro bioaccessibility and in vivo relative  bioavailability in 12 contaminated soils: Method comparison and method  development. Science of the Total Environment. 532: 812820.

[10]  Zheng, J. L., D. X. Guan,  J. Luo*, H. Zhang, W. Davison, X. Y. Cui, L. H. Wang, and L. Q. Ma. 2015.  Activated charcoal based diffusive gradients in thin-films for in situ  monitoring of bisphenols in waters. Analytical Chemisty. 87: 801807. 

[9]  Li, H. B.,  X. Y. Cui, K. Li, J. Li, A. L. Juhasz, and L. Q. Ma*. 2014. Assessment of in vitro lead bioaccessibility in house dust and its relationship to in vivo lead  relative bioavailability. Environmental Science & Technology. 48: 85488555.

[8]  Jia, F.,  X. Cui, W. Wang, and J. Gan*. 2012. Using disposable solid-phase  microextraction (SPME) to determine the freely dissolved concentration of  polybrominated diphenyl ethers (PBDEs) in sediments. Environmental Pollution. 167:  3440.

[7]  Luo, L., L. Lou*, X. Cui, B. Wu, J. Hou, B. Xun, X.  Xu, and Y. Chen. 2011. Sorption and desorption of pentachlorophenol to black  carbon of three different origins. Journal of Hazardous Materials. 185: 639646. 

[6]  Qian,  Y., X. Liang, Y. Chen*, L. Lou, X. Cui, J. Tang, P. Li, and R. Cao. 2011. Significance of biological effects on phosphorus transformation  processes at the water–sediment interface under different environmental conditions. Ecological Engineering. 37: 816825.

[5]  Quan, X., X. Liu*, L. Bo, S.  Chen, Y. Zhao, and X. Cui. 2004. Regeneration of acid orange 7-exhausted  granular activated carbons with microwave irradiation. Water Research. 38:  44844490.

[4]  韩永和, 贾梦茹, 傅景威, 向萍, 史孝霞, 崔昕毅, 罗军, 陈焱山*.  2017.  不同浓度砷酸盐胁迫对蜈蚣草根际微生物群落功能多样性特征的影响. 南京大学学报(自然科学版). 53(2): 275–285.

[3]  周春羊, 管冬兴, 韩永和, 潘岳, 房煦, 王兴雨, 郑健伦, 李亚青, 魏天娇, 邹宜涛, 崔昕毅, 罗军*. 2016. 基于梯度扩散薄膜技术的太湖金属和营养盐区域污染特征分析. 农业环境科学学报. 35(6): 1144–1152.

[2]  李韵姿, 何睿文, 韩永和, 向萍, 罗军, 崔昕毅*. 2016. 胃肠模拟体外法的生理参数对室内灰尘中邻苯二甲酸酯与磷系阻燃剂的生物有效性的影响. 环境科学学报. 36(5): 18411848.

[1]  韩永和, 何睿文, 李超, 向萍, 罗军, 崔昕毅*. 2016. 邻苯二甲酸酯降解细菌的多样性、降解机理及环境应用. 生态毒理学报. 11(2): 3749.


国家发明专利

[1]  缪峰, 崔昕毅, 王晨宇. 一种基于层状材料场效应的生物物质传感器和生物物质探测系统[P]. 中国: ZL201610018192.8, 2016–06–15公开, 公开号105675700A.

[2]  崔昕毅, 缪峰, 夏栩笙. 一种氧化石墨烯及其制备方法与用途[P]. 中国: ZL201410836557.9, 2015–05–13公开, 公开号104609399A.


国际交流与合作

与美国加州大学河滨分校、美国伯克利劳伦斯国家实验室、美国加州农药管理局、新加坡南洋理工大学等环境科学研究机构长期保持交流与合作关系。