职务/系别:环境工程系
职称/称号:讲师
办 公 室:科技园U创空间B212
邮 箱:ccliu@sdust.edu.cn
教育背景
(1)2022/01-2023/01,新加坡国立大学,土木与环境工程,联合培养博士
(2)2018/09-2023/06,浙江大学,环境科学,博士
(3)2014/09-2018/06,浙江师范大学,环境科学,学士
研究方向
(1)生物污染环境界面行为与调控原理
(2)抗生素抗性基因增殖传播行为及机制
(3)环境微生物
代表性成果
科研/教学项目:参与国家级项目2项,代表性项目如下:
(1)国家重点研发计划项目,场地土壤与地下水污染物多介质界面过程和调控机制,2018YFC1800705, 2018/12-2022/12,参与
(2)国家创新研究群体项目,有机污染物环境界面行为与调控技术原理,21621005,2017/01-2022/01,参与
代表性论著:累计发表SCI、EI论文9篇,代表性论著如下:
(1)Liu C., Zhu X., You L., Karina G., Chen H., Chen B.,* Per/polyfluoroalkyl substances modulate plasmid transfer of antibiotic resistance genes: A balance between oxidative stress and energy support. Water Research 2023, 240, 120086.
(2)Liu C., Yan H., Sun Y., Chen B.,* Contribution of enrofloxacin and Cu2+ to the antibiotic resistance of bacterial community in a river biofilm. Environmental Pollution 2021, 291, 118156.
(3)Liu C., Shin G., You L., Yuan Q., Sanjeeb M., Karina G.,* Chen B.,* Low concentration quaternary ammonium compounds promoted antibiotic resistance gene transfer via plasmid conjugation. Science of the total environment 2023, 887, 163781.
(4)刘聪聪, 杨新亚,宋睿,等.金华市冬季大气颗粒物PM2.5中多环芳烃的污染现状及健康风险评价. 科学通报, 2017,62(12): 1285-1291.
(5)Wu J., Liu C., Wang R., Sun Y., Chen B., Zhu X.,* Enhanced bacterial adhesion force by rifampicin resistance promotes microbial colonization on PE plastic compared to non-resistant biofilm formation. Water Research 2023, 240, 120086.
(6)Yan, H., Liu, C., Yu, W., Zhu, X., Chen, B.,* The aggregate distribution of Pseudomonas aeruginosa on biochar facilitates quorum sensing and biofilm formation. Science of the total environment, 2023, 856(1), 159034.
(7)Zhu, X., K. Wang, C. Liu, Y. Wu, E. Wu, J. Lv, X. Xiao, X. Zhu, C. Chu and B. Chen,* Natural disinfection-like process unveiled in soil microenvironments by enzyme-catalyzed chlorination. Environmental Science & Technology, 2024, 58(8): 3838-3848.
(8)Zhu, X., Wang, K., Yan H., Liu, C., Zhu, X., Chen B.,* Microfluidics as an Emerging Platform for Exploring Soil Environmental Processes: A Critical Review. Environmental Science & Technology, 56(2), 2022, 711-731.
(9)Wu, Y., H. Yan, X. Zhu, C. Liu, C. Chu, X. Zhu and B. Chen,* Biochar Effectively Inhibits the Horizontal Transfer of Antibiotic Resistance Genes via Restraining the Energy Supply for Conjugative Plasmid Transfer. Environmental Science & Technology, 2022, 56(17): 12573-12583.
学术与社会兼职
(1)Journal of Hazardous Materials, Gut microbes等期刊审稿人