新加坡国立大学化学博士,北京大学环境工程博士后。主要从事环境与能源微生物在污染物控制与能源回收领域的应用研究,包括微生物驱动的重金属迁移转化、有机污染物降解和生物质产能等。
(1)微生物生态代谢组学:基于微生物生态代谢组学技术,在重要污染物(如人工合成广谱抗生素)胁迫的微生物生态环境中,研究模式环境微生物的代谢物水平响应,深入理解关键分子的调控过程及相互作用规律。
(2)氢氧化型细菌氨同化:为推动新型污水生物脱氮技术的发展,提高氢氧化型细菌在多变环境中的固氮能力,在技术层面验证污水生物氨同化脱氮途径的突破点,扩大培养氢氧化型细菌和批量生产微生物蛋白。
科研项目
1. 国家自然科学基金(青年基金),51809004,水体汞生物甲基化受喹诺酮类抗生素胁迫的细胞C1代谢通路,22万元,2019.01-2020.12,主持
2. 中国博士后科学基金(面上项目),2018M631267,典型喹诺酮类抗生素暴露下汞甲基化微生物的碳代谢通路,5万元,2018.05-2019.05,主持
3. 国家自然科学基金(面上项目),51879003,微塑料对全氟辛烷磺酸类物质在海洋双壳贝类体内生物富集和毒性效应的影响机制研究,60万元,2019.01-2022.12,参与
4. 深圳市知识创新计划基础研究项目,JCYJ20180503182122539,抗生素胁迫条件下微生物驱动汞生物甲基化的机制及其污染控制策略研究,300万元,2019.03-2022.03,参与
5. 深圳市知识创新计划基础研究项目,JCYJ20170306092248830,水环境中抗生素的微生态毒性效应研究,30万元,2017.05-2019.05,参与
学术论著
1. Zhang, L. J. & Tao, H. C. (2019). Bioelectro-Fenton system for environmental pollutant degradation, in Bioelectrochemistry stimulated environmental remediation. (Editors: Wang, A. J., Liang, B., Li, Z. L. & Cheng, H. Y.). Springer Nature, 245-268.
2. 陶虎春, 张丽娟, 朱顺妮, 等. (2019). 环境与能源微生物, 科学出版社.
期刊论文
1. Zhang, L. J., Xie, Y., Ding, L. Y., Qiao, X. J. & Tao, H. C. (2020). Highly efficient ammonium removal through nitrogen assimilation by a hydrogen-oxidizing bacterium, Ideonella sp. TH17. Environmental Research, 191, 110059.
2. Zhang, L. J., Li, F. Y. S. & Tao, H. C. (2019). Toxicity assessment of copper by electrochemically active bacteria in wastewater. Environmental Geochemistry and Health, 41, 81-91.
3. Zhang, L. J., Zhang, X., Liang, H. F., Xie, Y. & Tao, H. C. (2018). Ammonium removal by a novel magnetically modified excess sludge. Clean Technologies and Environmental Policy, 20, 2181-2189.
4. Zhang, L. J., Ong, J., Liu, J. Y. & Li, S. F. Y. (2017). Enzymatic electrosynthesis of formate from CO2 reduction in a hybrid biofuel cell system. Renewable Energy, 108, 581-588.
5. Zhang, L. J., Liu, J. Y., Ong, J. & Li, S. F. Y. (2016). Specific and sustainable bioelectro-reduction of carbon dioxide to formate on a novel enzymatic cathode. Chemosphere, 162, 228-234.
6. Zhang, L. J., Yin, X. J., & Li, S. F. Y. (2015). Bio-electrochemical degradation of paracetamol in a microbial fuel cell-Fenton system. Chemical Engineering Journal, 276: 185-192.
7. Zhang, L. J., Gao, Y., Lai, L. K., & Li, S. F. Y. (2015). Whole-cell-based identification of electrochemically active bacteria in microbial fuel cells by matrix-assisted laser desorption/ionization time-of-flight mass spectrometry. Rapid Communication in Mass Spectrometry, 29, 1-8.
8. Zhang, L. J., Tao, H. C., Wei, X. Y., Lei, T., Li, J. B., Wang, A. J., & Wu, W. M. (2012). Bioelectrochemical recovery of ammonia-copper(II) complexes from wastewater using a dual chamber microbial fuel cell. Chemosphere, 89(10), 1177-1182.