2018.09-2022.06,西北农林科技大学,资源环境学院,环境科学专业,博士,导师:祝凌燕教授和王铁成教授
2013.09-2016.06,兰州大学,资源环境学院,环境科学专业,硕士,导师:南忠仁教授
2009.09-2013.06,宁夏大学,资环学院,环境科学专业,学士
2022.07-至今,宁夏大学生态环境学院,讲师
环境新污染控制;高级氧化技术,环境微生物
(1)国家自然科学基金重点项目,21737003,型新型全氟/多氟化合物的环境界面行为与转化机制研究,2018.1.1-2022.12.31,参与。
(2)国家自然科学基金面上项目,21976143, 等离子体氧化去除水中抗性细菌及其携带的抗性基因的效应与机制,2020.01-2023.12,参与。
(3)国家自然科学基金青年项目,51608448, 放电等离子体耦合铁屑内电解-沉淀法去除水中重金属络合物的效应和机制,2017.01-2019.12,参与。
SCI论文:
[1] Li, H.; Song, R.; Wang, Y.; Zhong, R.; Wang, T.; Jia, H.; Zhu, L., 2021. Environmental free radicals efficiently inhibit the conjugative transfer of antibiotic resistance by altering cellular metabolism and plasmid transfer. Water Research. 209, 117946-117957. (SCI, 1区, Top期刊, IF=13.400).
[2] Li, H.; Song, R.; Wang, Y.; Zhong, R.; Zhang, Y.; Zhou, J.; Wang, T.; Jia, H.; Zhu, L., 2021. Inhibited conjugative transfer of antibiotic resistance genes in antibiotic resistant bacteria by surface plasma. Water Research. 204, 117630-117640. (SCI, 1区, Top期刊, IF=13.400).
[3] Li, H., Jiang, E., Wang, Y., Zhong, R., Zhou, J., Wang, T., Jia, H. and Zhu, L. 2022. Natural organic matters promoted conjugative transfer of antibiotic resistance genes: Underlying mechanisms and model prediction. Environment International. 170, 107653-107653. (SCI, 1区, Top期刊, IF=13.352).
[4] Li, H.; Li, T.; He, S.; Zhou, J.; Wang, T.; Zhu, L., 2020. Efficient degradation of antibiotics by non-thermal discharge plasma: Highlight the impacts of molecular structures and degradation pathways. Chemical Engineering Journal. 395, 125091-125098. (SCI, 1区, Top期刊, IF=16.744).
[5] Li, H.; Kang, Z.; Jiang, E.; Song, R.; Zhang, Y.; Qu, G.; Wang, T.; Jia, H.; Zhu, L., 2021. Plasma induced efficient removal of antibiotic-resistant Escherichia coli and antibiotic resistance genes, and inhibition of gene transfer by conjugation. Journal of Hazardous Materials. 419, 126465-126476. (SCI, 1区, Top期刊, IF=14.244).
[6] Li, H.; Song, R.; Wang, Y.; Zhong, R.; Zhang, Y.; Zhou, J.; Wang, T.; Zhu, L., 2022. Simultaneous removal of antibiotic-resistant bacteria and its resistance genes in water by plasma oxidation: Highlights the effects of inorganic ions. Separation and Purification Technology. 278, 119672-119681. (SCI, 1区, Top期刊, IF=9.136).
[7] Li, H.; Song, R.; Wang, Y.; Zhong, R.; Zhang, Y.; Zhou, J.; Wang, T.; Zhu, L., 2022. Insights into DNA structures during antibiotic-resistance genes elimination by mesoporous plasma. ACS ES&T Water. 2, 128-136.
[8] Liu, Y., Li, H., Wang, R., Hu, Q., Zhang, Y., Wang, Z., Zhou, J., Qu, G., Wang, T., Jia, H. and Zhu, L. 2022. Underlying mechanisms of promoted formation of haloacetic acids disinfection byproducts after indometacin degradation by non-thermal discharge plasma. Water Research 220. (SCI, 1区, Top期刊, IF=13.400).
[9] Zhong, R., Li, H., Wang, Y., Zhang, Y., Zhou, J. and Wang, T. 2023. Removal of antibiotic resistance genes and pathogenicity in effluent from municipal wastewater treatment plant by plasma oxidation. Chemical Engineering Journal. 454, 140274. (SCI, 1区, Top期刊, IF=16.744).
[10] Wang, Y., Li, H., Li, Y., Guo, H., Zhou, J. and Wang, T. 2023. Metagenomic analysis revealed sources, transmission, and health risk of antibiotic resistance genes in confluence of Fenhe, Weihe, and Yellow Rivers. The Science of the total environment. 858(Pt 2), 159913-159913. (SCI, 1区, Top期刊, IF=10.753).
[11] Song, R.; Li, H.; Kang, Z.; Zhong, R.; Wang, Y.; Zhang, Y.; Qu, G.; Wang, T., 2021. Surface plasma induced elimination of antibiotic-resistant Escherichia coli and resistance genes: Antibiotic resistance, horizontal gene transfer, and mechanisms. Separation and Purification Technology. 275, 119185-119195. (SCI, 1区, Top期刊, IF=9.136).
[12] Wang, Y., Li, Y., Li, H., Zhou, J. and Wang, T. 2023. Seasonal dissemination of antibiotic resistome from livestock farms to surrounding soil and air: Bacterial hosts and risks for human exposure. Journal of environmental management. 325(Pt B), 116638-116638. (SCI, 2区, Top期刊, IF=8.910).
[13] Liu, Y.; Li, Y.; Li, H.; Wang, R.; Zhou, J.; Zhang, Y.; Qu, G.; Wang, T.; Jia, H., 2022. Multiprocess catalyzed Cu-EDTA decomplexation by non-thermal plasma coupled with Fe/C microelectrolysis: Reaction process and mechanisms. Separation and Purification Technology. 280, 119831-119842. (SCI, 1区, Top期刊, IF=9.136).
[14] Li, T.; Fan, Y.; Li, H.; Ren, Z.; Kou, L.; Guo, X.; Jia, H.; Wang, T.; Zhu, L., 2021. Excess sludge disintegration by discharge plasma oxidation: Efficiency and underlying mechanisms. Science of the Total Environment. 774, 145127-145136. (SCI, 1区, Top期刊, IF=10.753).
[15] Li, T.; Zhang, Y.; Ren, Z.; Cheng, X.; Li, H.; Zhang, Y.; Qu, G.; Wang, T.; Zhu, L., 2021.The fate of heavy metals in excess sludge during disintegration by discharge plasma. Separation and Purification Technology. 277, 119433-119442. (SCI, 1区, Top期刊, IF=9.136).
中文核心:
[1]李虎,贺婧,刘冲,武文飞,杨超,南忠仁.农田灰钙土中有机质和碳酸钙对Zn吸附-解吸行为的影响[J].中国环境科学,2015,06:1786-1793.(EI)
[2]李虎,贺婧,刘冲,武文飞,李洋,南忠仁.干旱区灰钙土和风沙土对Zn的吸附与解吸特性[J].环境化学,2015,04:779-785.
[3]李虎,赵一莎,刘冲,武文飞,王厚成,南忠仁.Cd胁迫下黄土施用污泥对马铃薯生长及Cd富集迁移的影响[J].生态环境学报,2014,08:1366-1371.
[4]刘冲,李虎,赵一莎,武文飞,王厚成,南忠仁.镉胁迫下磷酸二铵对马铃薯生长及吸收镉的影响[J].土壤通报,2015,02:477-482.
[5]刘冲,李虎,赵一莎,武文飞,王厚成,南忠仁.外源Cd在黄土中的形态分布特征及其生物有效性[J].干旱区资源与环境,2015,09:182-187.
[6]刘冲,李虎,赵一莎,武文飞,王厚成,南忠仁.城市污泥对Cd在黄土中的形态分布及再分配的影响[J].环境科学学报,2015,10:3218-3224.
[7]周健,李虎,李晓林,王厚成,金诚,南忠仁*,外源Cd胁迫下施污土壤中重金属的形态特征和土壤酶活性的关系.环境化学,2016, 35(10):2036-2043.
[8]周健,李小琴,李虎,刘冲,王厚成,南忠仁*,外源Cd在施污土壤中的形态变化及生物有效性.干旱区资源与环境,2017, 31(5):192-196.
[9]赵一莎,刘冲,李虎,武文飞,王厚成,南忠仁.黄土中添加污泥对不同胁迫水平下小麦吸收Cd的影响[J].兰州大学学报(自然科学版)
[10]赵一莎,刘冲,李虎,武文飞,王厚成,南忠仁.施污黄土中镉胁迫下小麦对镉的吸收及镉的生物有效性[J].兰州大学学报(自然科学版)
专利
[1]胡亚虎,苏洁琼,南忠仁,刘冲,李虎.重金属铜、铅污染钙质土壤的植物固定修复方法[P].甘肃:CN104126405A,2014-11-05.
获奖:
2018年入选自治区青年拔尖人才培养工程
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