陈晓英

阅读次数:     日期:2023-03-28

姓名: 陈晓英

民族: 回族

学历: 博士研究生

职称:讲师

邮箱:chenxiao18@nxu.edu.cn

办公室电话:

招生专业: 化学、环境相关专业

研究方向: 高级氧化技术低耗高效处理难降解废水






 

教育背景与工作经历 

教育背景

2018.09——2022.08 清华大学 博士 环境科学与工程

2014.09——2017.07 中国科学院大学 硕士 环境科学

2010.09——2014.07 长安大学 本科 环境科学

工作经历

2022.09——至今 宁夏大学 教学科研

科研成果

[1]Chen Xiaoying, Wang Jianlong*, 2020. Degradation of norfloxacin in aqueous solution by ionizing irradiation: Kinetics, pathway and biological toxicity. Chemical Engineering Journal. 395, 125095.

[2]Chen Xiaoying, Zhuan Run, Wang Jianlong*, 2021. Assessment of degradation characteristic and mineralization efficiency of norfloxacin by ionizing radiation combined with Fenton-like oxidation. Journal of Hazardous Materials. 404: 124172.

[3]Chen Xiaoying, Wang Jianlong*, 2021. Degradation of antibiotic Cephalosporin C in different water matrices by ionizing radiation: Degradation kinetics, pathways, and toxicity. Science of the Total Environment. 791: 148253.

[4]Chen Xiaoying, Wang Jianlong*, 2021. Degradation performance and mechanism of penicillin G in aqueous solution by ionizing radiation. Journal of Cleaner Production. 328:129625.

[5]Wang Jianlong*, Chen Xiaoying, 2020. Removal of antibiotic resistance genes (ARGs) in various wastewater treatment processes: An overview. Critical Reviews in Environmental Science and Technology. 52(4): 571-630.

[6]Chen Xiaoying, Li Yuanyuan, Zhu Min, Qin Zhanfen, 2018. Anex-vivo assay for screening glucocorticoid signaling disruption based on glucocorticoid-response gene transcription inXenopustails. Journal of Environmental Sciences. 66: 104-112.

[7]Yao Xiaofang, Chen Xiaoying, Zhang Yinfeng, et al., 2017. Optimization of the T3-inducedXenopusmetamorphosis assay for detecting thyroid hormone signaling disruption of chemicals [J]. Journal of Environmental Sciences. 52: 314-324.

[8]Zhu Min, Chen Xiaoying, Li Yuanyuan, Yin Nuoya, Francesco Faiola, Qin Zhanfen, Wei Wuji, 2018. Bisphenol F disrupts thyroid hormone signaling and postembryonic development inXenopuslaevis. Environmental Science & Technology. 52(3):1602-1611.

项目基金

1.国家自然科学基金委员会,面上项目,21777185,高疏水性卤代阻燃剂的人体负荷及经皮接触室内灰尘途径的人体暴露评价研究,2018-01-01至2021-12-31,65万元,结题,参与