姓名:王少杰
职称:副教授(见习)
邮箱:
办公地址:东校区科技大厦西配楼113 |
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教育背景:
2009.09-2013.07,北京化工大学,生物工程,学士
2013.09-2019.07,北京化工大学,化学工程与技术,博士
2015.09-2016.10,上海交通大学,联合培养博士
2017.11-2018.11,washington university in st. louis,访问学者
工作经历:
2019.07-2021.08,上海交通大学,纳米生物医学工程研究所,博士后
2021.09-至今,北京化工大学,生命科学与技术学院,副教授(见习)
学术兼职:
water research、renewable energy 等期刊审稿人
主要研究领域:
1.人工多菌体系的构建与调控
2.生物能源及生物基化学品制备
获奖及荣誉:
2019年 上海交通大学,“晨星博士后激励计划”
科研项目:
2021年 重点研发计划子课题
2020年 中国博士后科学基金面上项目
代表性著作:
1. cui, p. ge, j., chen, y., zhao, y., wang, s*. & su, h*. the fe3o4 nanoparticles-modified mycelium pellet-based anaerobic granular sludge enhanced anaerobic digestion of food waste with high salinity and organic load. renew. energy, 2022,185, 376–385
2. 刘裕, 韦惠玲, 刘骥翔, 王少杰*, 苏海佳* 人工多菌体系的设计与构建:合成生物学研究新前沿. 合成生物学, 2021, 2(4):16.
3. chen, y., hu, t., xiong, w., fan, a., wang, s*. & su, h*. enhancing robustness of activated sludge with aspergillus tubingensis as a protective backbone structure under high-salinity stress. j. environ. manage. 2021, 297, 113302.
4. xiong, w.#, wang, s.#, zhou, n., chen, y. & su, h*. granulation enhancement and microbial community shift of tylosin-tolerant aerobic granular sludge on the treatment of tylosin wastewater. bioresour. technol., 2020, 318, 124041.
5. chen y., ge j., wang s*, su h*. insight into formation and biological characteristics of aspergillus tubingensis -based aerobic granular sludge (at-ags) in wastewater treatment. sci. total environ., 2020, 739.
6. xiong w., zhou n., fan a., wang s*, su h*. high-strength anaerobic digestion wastewater treatment by aerobic granular sludge in a step-by-step strategy. j. environ. manage., 2020, 262, 110245.
7. wang, s., zhang, t., bao, m., su, h.*, & xu, p. microbial production of hydrogen by mixed culture technologies: a review. biotechnol. j., 2019, 1900297.
8. wang s#, tang h#, peng f, yu x, su h*, xu p*, tan t. metabolite-based mutualism enhances hydrogen production in a two-species microbial consortium. commun. biol., 2019, 2, 82.
9. wang, s., ma, z. & su, h*. two-step continuous hydrogen production by immobilized mixed culture on corn stalk. renew. energy,2018, 121, 230-235.
10. wang, s., hou, x. & su, h*. exploration of the relationship between biogas production and microbial community under high salinity conditions. sci. rep., 2017, 7, 1149.
11. wang, s., ma, z., zhang, t., bao, m. & su, h*. optimization and modeling of biohydrogen production by mixed bacterial cultures from raw cassava starch. front. chem. sci. eng., 2017, 11, 100-106.
12. wang, s.#, peng, l.#, jiang, y., gikas, p., zhu, b.*, & su, h*. evaluation of a novel split-feeding anaerobic/oxic baffled reactor (a/obr) for foodwaste anaerobic digestate: performance, modeling and bacterial community. sci. rep., 2016, 6, 34640.
13. wang, s., zhang, t. & su, h*. enhanced hydrogen production from corn starch wastewater as nitrogen source by mixed cultures. renew. energy, 2016, 96, 1135–1141.
教师寄语:
业精于勤,荒于嬉;行成于思,毁于随。
招生要求:
勤奋、思辨、善于交流