胡佳俊，博士，副教授

办公室电话: 021-66136236

电子邮箱: hujiajunsu@shu.edu.cn

研究方向：

环境微生物技术，包括微生物固碳、生物质的处理和资源化、及土壤修复。

教育经历：

2009.03—2012.03，博士，同济大学环境科学与工程学院，环境工程

2006.09—2009.03，硕士，华东理工大学生物工程学院，生物化工

2002.09—2006.06，学士，合肥工业大学生物与食品工程学院，生物技术

工作经历：

2020.03 —  至今 ，副教授，最安全的网上投注平台(中国)有限公司

2014.12 — 2020.02，讲师，最安全的网上投注平台(中国)有限公司

2012.10 — 2014.12，博士后，同济大学土木工程学院，市政工程

教学情况：

本科生课程：当代生命伦理；生物工艺学实验

研究生课程：学术英语写作与交流；科研写作、伦理与规范

公司产品：

培养研究生12名。本人曾获评首届公司体育达人，并在长跑、游泳等个人项目上多次获奖，特别注重对学生身心健康的培养。

热烈欢迎生物、环境、生态、化学等专业的同学报考。希望在人生的长跑中相逢，并照亮彼此。

科研项目（主持）：

[1] 国家重点研发计划（子课题负责人）：微纳米气泡耦合生物炭原位氧化修复地下水中石油烃污染，项目号：2021YFE0192600

[2] 国家自然科学基金：协同自养微生物强化土壤碳增汇的生物炭要素解析及其微观机制研究，项目号：32071640

[3] 国家自然科学基金：非光合微生物菌群固定CO₂过程中自养-异养微生物的协同效应及其作用机制, 项目号：21307093

[4] 上海高校青年教师培养资助计划：重金属对秸秆生物转化过程的抑制效应及其消减技术研究，项目号：ZZSD15105

[5] 中国博士后科学基金特别资助：土壤有机质对非光合微生物固定CO₂的抑制效应及机制, 项目号：2014T70430

[6] 中国博士后科学基金面上资助：非光合微生物菌群固定CO₂及能源代谢过程中的协同机制，项目号：2013M531220

[7] 污染控制与资源化研究国家重点实验室自主课题资助：有机碳对非光合微生物菌群固定CO₂过程的抑制效应及其机制研究, 项目号：PCRRY12002

学术成果（截止到2022.01.17）：

发表学术论文90篇，其中以第一作者或通讯作者发表SCI论文24篇，其中在SCI TOP期刊《Environmental Science & Technology》、《Science of the Total Environment》、《Bioresource Technology》、《Carbohydrate Polymers》、《Journal of Membrane Science》等杂志上发表8篇论文；授权专利2项；著作1本。代表如下：

学术论文：

[1] Kai Tong W., Dai C.^#*, Hu J.^#*, Li J.^#*, Gao M.-t., Li Z., Zhou L., Zhang Y., Kahon L. Solubilization and remediation of polycyclic aromatic hydrocarbons in groundwater by cationic surfactants coupled nanobubbles: Synergistic mechanism and application. Journal of Molecular Liquids, 2023, 373: 121242.

[2] Guo J., Wang X.Y., Li T., Gao M.-t., Hu J.^#*, Li J.^#* Effect of micro-nanobubbles with different gas sources on the growth and metabolism of chemoautotrophic microorganisms. Process Biochemistry, 2023, 126: 117-124.

[3] Guo J., Xiao H., Zhang J.B., Dai C., Li T., Gao M.-t., Hu J.^#*, Li J.^#* Characterization of highly stable biochar and its application for removal of phenol. Biomass Conversion and Biorefinery, 2022. DOI: 10.1007/s13399-022-03375-3

[4] Hu J., Tang H., Wang Y.Z., Yang C., Gao M.-t., Tsang Y.F., Li J. Effect of dissolved solids released from biochar on soil microbial metabolism. Environmental Science: Processes & Impacts, 2022, 24: 598-608.

[5] Dai C; Tong WK; Zou JJ; Gao M-t; Zhang Y; Liu S; Li T; Li J^#*; Hu J.^#* Synergistic solubilization of phenanthrene using micro-nanobubbles and cationic surfactants: Universal verifying, amplifying, and strengthening the synergy. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2022, 644: 128837.

[6] Hu J., Guo H., Xue Y., Gao M.-t., Zhang S., Tsang Y.F., Li J., Wang Y.-n., Wang L. Using a mixture of microalgae, biochar, and organic manure to increase the capacity of soil to act as carbon sink. Journal of Soils and Sediments, 2019, 19: 3718-3727.

[7] Hu J., Guo H., Wang X., Gao M.-t., Yao G., Tsang Y.F., Li J., Yan J., Zhang S. Utilization of the saccharification residue of rice straw in the preparation of biochar is a novel strategy for reducing CO₂ emissions. Science of the Total Environment, 2019, 650: 1141-1148.

[8] Wang X.^#1, Cui S.^#1, Hu J.^#1, Ma X., Zhang T.-A., Tsang Y.F., Li J., Gao M.-T. Saccharides in straw hydrolysate decrease cell membrane damage by phenolics by inducing the formation of extracellular matrix in yeast. Carbohydrate Polymers, 2019, 219: 414-422.

[9] Ma X.^#1, Hu J.^#1, Wang X., Choi S., Zhang T.-A., Tsang Y.F., Gao M.-T. An integrated strategy for the utilization of rice straw: Production of plant growth promoter followed by ethanol fermentation. Process Safety and Environmental Protection, 2019, 129: 1-7.

[10] Guo H.^#1, Hu J.^#1, Li J., Gao M.-t., Wang Q., Guo W., Ngo H.H. Systematic insight into the short-term and long-term effects of magnetic microparticles and nanoparticles on critical flux in membrane bioreactors. Journal of Membrane Science, 2019, 582: 284-288.

[11] Zhang S., Wang L., Wei W., Hu J.^*, Mei S., Zhao Q., Tsang Y.F. Enhanced roles of biochar and organic fertilizer in microalgae for soil carbon sink. Biodegradation, 2018, 29: 313-321.

[12] Zhang, S.; Jin, F.*; Hu, J.*; Zhang, W. Role of metallic zn, ni and activated carbon additives in improving the hydrothermal conversion of glucose into lactic acid. Journal of Chemical Technology & Biotechnology, 2017, 92: 1046-1052.

[13] Hu, J.; Xue, Y.; Guo, H.; Gao, M.-t.; Li, J.; Zhang, S.; Tsang, Y. F. Design and composition of synthetic fungal-bacterial microbial consortia that improve lignocellulolytic enzyme activity. Bioresource Technology, 2017, 227: 247-255.

[14] Hu, J.; Xu, Q.; Wu, M.; Meng, X.; Song, R.; Gao, M. Improved ethanol production in the presence of cadmium ions by a saccharomyces cerevisiae transformed with a novel cadmium-resistance gene dvcrp1. Environmental Technology, 2016, 37: 2945-2952.

[15] Hu, J.; Xue, Y.; Li, J.; Wang, L.; Zhang, S.; Wang, Y.-n.; Gao, M.-t. Characterization of a designed synthetic autotrophic-heterotrophic consortia for fixing CO₂ without light. RSC Advances, 2016, 6: 78161-78169.

[16] Hu, J.J.; Wang, L.; Zhang, S.P.; Xi, X.F.; Le, Y.Q; Fu, X.H.; Tsang, Y.F; Gao, M.T.. Interactions between autotrophic and heterotrophic strains improve CO₂ fixing efficiency of non-photosynthetic microbial communities. Applied Biochemistry and Biotechnology, 2015, 176:1459-1471.

[17] Hu, J.J.; Wang, L.; Zhang, S.P.; Le, Y.Q; Fu, X.H.. Feasibility of a two-step culture method to improve the CO₂-fixing efficiency of nonphotosynthetic microbial community and simultaneously decrease the spontaneous oxidative precipitates from mixed electron donors. Applied Biochemistry and Biotechnology, 2014, 173: 2307-2320.

[18] Hu, J.J.; Wang, L.; Zhang, S.P.; Wang, Y.Q.; Jin, F.M.; Fu, X.H.; Li, H.R.. Universally improving effect of mixed electron donors on the CO₂ fixing efficiency of non-photosynthetic microbial communities from marine environments. Journal of Environmental Sciences, 2014, 26: 1709-1716.

[19] Li, F.; Chen, J.H.; Wang, L.; Hu, J.J.*; Shan, Y.N.; Yin, Q.X; Fu, X.H.; Le, Y.Q.. Effects of turning frequency on the reduction, humification, and stabilization of organic matter during composting: a laboratory-scale research. Fresenius Environmental Bulletin, 2014, 23: 2381-2387.

[20] Xi, X.F.; Wang, L.; Hu, J.J.*; Tang, Y.S.; Hu, Y.; Fu, X.H.; Sun, Y.; Tsang, Y.F; Zhang, Y.N.;  Chen, J.H.. Salinity influence on soil microbial respiration rate of wetland in the Yangtze River estuary through changing microbial community. Journal of Environmental Sciences, 2014, 26: 2562-2570.

[21] Hu, J.J.; Wang, L.; Zhang, S.P.; Wang, Y.Q.; Xi, X.F.. Inhibitory effect of organic carbon on CO₂ fixing by non-photosynthetic microbial community isolated from the ocean. Bioresource Technology, 2011, 102: 7147-7153.

[22] Hu, J.J.; Wang, L.; Zhang, S.P.; Fu, X.H.; Le, Y.Q.; Li, H.R.. Enhanced CO₂ fixation by a non-photosynthetic microbial community under anaerobic conditions: Optimization of electron donors. Bioresource Technology, 2011, 102: 3220-3226.

[23] Hu, J.J.; Wang, L.; Zhang, S.P.; Fu, X.H.; Le, Y.Q.. Matching different inorganic compounds as mixture of electron donors to improve CO₂ fixation by nonphotosynthetic microbial community without hydrogen. Environmental Science & Technology, 2010, 44: 6364-6370.

[24] Hu, J.J.; Wang, L.; Zhang, S.P.; Fu, X.H.; Le, Y.Q.. Optimization of electron donors to improve CO₂ fixation efficiency by a non-photosynthetic microbial community under aerobic condition using statistical experimental design. Bioresource Technology, 2010, 101: 7062-7067.

著作：

[1] 胡佳俊. 非光合微生物菌群固定CO₂过程的调控与优化, 同济博士论丛. 同济大学出版社, 2017.

专利：

[1] 胡佳俊, 王夏慧, 郭洪成, 高旻天. 利用秸秆糖化残渣制备生物炭的方法及其制备的生物炭的应用. 专利号: ZL201810246024.3 .

[2] 胡佳俊, 王磊, 胡煜. 试管适配器. 授权公告号: CN203711072U.