个人履历

教育经历：

1994/09-1998/07---沈阳建筑大学，给水排水工程专业，学士

2003/09-2005/09---德国帝宾根大学（University of tuebingen)，应用环境地球科学（Applied Environment Geosciences)专业，硕士

2005/10-2010/01---德国帝宾根大学（University of tuebingen)，环境地质所，博士

主要工作经历：

2007年--------------美国明尼苏达州（University of Minnesota),访问学者

2004/04-2010/01---德国帝宾根大学（University of Tuebingen)，环境地质所，科研助理

2011/04-2012.12---公司,十大正规赌网站，讲师

2013.01-至今-------公司，十大正规赌网站，副教授，硕士生导师

教学工作

本科生课程：

《环境生物学》

研究生课程：

《现代环境生物技术》

科学研究

主要研究领域：

1. 环境微生物学：厌氧铁氧化和铁还原菌的生理研究

2. 土壤有机质化学：腐殖质的氧化还原性研究

3. 土壤及污泥氧化还原环境研究：包括微生物部分，化学部分，电化学部分及光谱学研究新方法。

代表性研究项目：

国家自然科学基金、教育部博士点基金等。

代表性文章

1. Yang. Z.; Kappler. A.; Jiang. J.*. Reducing Capacities and Distribution of Redox-Active Functional Groups in Low Molecular Weight Fractions of Humic Acids [J]. Environmental Science & Technology. 2016, 50(22), 12105~12113.

2. Yang. Z.; Du. M.C.; Jiang. J.*. Reducing Capacities and Redox Potentials of Humic Substances Extracted from Sewage Sludge [J]. Chemosphere. 2016, 144 (2), 902-908.

3. Tan. W. B.; Xi. B. D.; Wang, G. A.; Jiang. J. et al. Increased Electron-Accepting and Decreased Electron-Donating Capacities of Soil Humic Substances in Response to Increasing Temperature [J]. Environmental Science & Technology. 2018, (6),3176~3186.

4. Tian, W.; Yang, Z.; Zhang, X.; Jiang, J. et al. Redox Properties of Humic Substances under Different Environmental Conditions. [J]. Environmental Science & Pollution Research. 2017,(3), 1-10.

5. Roden. E.*; Kappler. A.; Bauer. I.; Jiang. J. et al. Extracellular electron transfer through microbial reduction of solid-phase humic substances. Nature Geoscience, 2010,3, 417-421.

6. Jiang. J.; Bauer. I.; Paul. A.; and Kappler. A. Arsenic Redox Changes by Microbially and Chemically Formed Semiquinone Radicals and Hydroquinones in a Humic Substance Model Quinone. Environmental Science & Technology. 2009, 43, 3639-3645.

7. Wolf. M.; Kappler. A.; Jiang. J. and Meckenstock, R.U. Effect of Humic Substances and Quinones at Low Concentrations on Ferrihydrite Reduction by Geobacter metallireducens. Environmental Science & Technology. 2009, 43, 5679-5685.

8. Jiang, J. and Kappler, A., Kinetics of Microbial and Chemical Reduction of Humic Substances: Implications for Electron Shuttling. Environmental Science & Technology. 2008, 42, 3563-3569.

9. Hegler, F.; Posth, N.R.; Jiang, J. and Kappler, A. Physiology of Phototrophic Iron (II)-Oxidizing Bacteria-Implications for Modern and Ancient Environments. FEMS Microbiology Ecology. 2008, 66 250-260.

10. Tan, W.; Jiang, J.et al. Increased Suppression of Methane Production by Humic Substances in Response to Warming in Anoxic Environments. Journal of Environmental Management. 2018, 206: 602-606.

11. Tan, W.; Zhang, Y.; Xi, B.; Jiang, J.et al. Discrepant responses of the electron transfer capacity of soil humic substances to irrigations with wastewaters from different sources. Science of the Total Environment, 2018, 610-611, 333-341.

12. Cao, J.; Jiang, J*. Reducing capacities in continuously released low molecular weight fractions from bulk humic acids. Journal of environmental management 2019,244, 172-179.

社会工作

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