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蒋永


发布者:曹海雷    发布时间:2018-10-07    浏览次数:4452

 




姓名:

蒋永

出生年月:

19879

学位:

博士

职称:

副教授

从事专业:

环境科学与工程

研究方向:

废水资源化

邮箱:

jiangyongchange@163.com

jiangyongchange@fafu.edu.cn

电话:


蒋永,男,198709月出生,四川德阳人。20188月通过福建省科研类引进生选拔加入福建农林大学资源与环境学院。主要从事微生物电化学技术,包括微生物电合成和水体毒性监测。已发表学术论文40余篇,其中ESI高被引论文5篇,第一/通讯作者论文20余篇。担任20余份SCI期刊审稿人。

教育经历:

20069月—20106月 四川大学,获学士学位 轻工生物技术 工学学士

20109月—20136月 中科院成都生物研究所,获硕士学位,导师:李大平 研究员 微生物

理学硕士

20139月—20186月 清华大学,获博士学位,导师:梁  鹏 教授 环境科学与工程 工学博士

20169月—20179月 美科罗拉多大学波尔得分校,联合培养,导师:任智勇 教授 博士生联合培养


主持科研项目:

(1)国家自然科学基金青年项目 生物电化学耦合系统还原CO2生产中链脂肪酸的调控机理 2020-2022

(2)环境模拟与污染控制国家重点联合实验室(清华大学) 2019年度开放课题 2019-2021

(3) 中国科学院环境与应用微生物重点实验室暨环境微生物四川省重点实验室开放课题2019-2021

(4) 福建农林大学“校杰出青年科研人才”计划项目;2020-2022

第一/通讯作者论文(*为通讯作者):

(1) Chu N, Liang Q, Jiang, Y*, et al. Microbial electrochemical platform for the production of renewable fuels and chemicals. Biosensors and Bioelectronics. 2020, 150: 111922. (IF: 9.518)

(2) Jiang Y, Chu N, et al. Electro-fermentation regulates mixed culture chain elongation with fresh and acclimated cathode. Energy Conversion and Management. 2020, 204: 112285. (IF: 7.181)

(3) Jiang Y, Chu N, et al. Microbial electrochemical stimulation of caproate production from ethanol and carbon dioxide Bioresource technology. 2020, 295: 122266. (IF: 6.669)

(4) Jiang Y, Chu N, et al. Zinc: A promising material for electrocatalyst-assisted microbial electrosynthesis of carboxylic acids from carbon dioxide. Water Research. 2019, 159: 87-94. (IF: 7.913)

(5)Jiang Y, Chu N, et al. Submersible probe type microbial electrochemical sensor for volatile fatty acids monitoring in the anaerobic digestion process.Journal of Cleaner Production. 2019, 232: 1371-1378. (IF: 6.395)

(6)Jiang Y, May Harold, Lu L, et al. Carbon dioxide and organic waste valorization by microbial electrosynthesis and electro-fermentation. Water Research. 2019, 149: 42-45. (ESI高被引论文,IF: 7.913)

(7)Jiang Y, Zeng RJ. Bidirectional extracellular electron transfers of electrode-biofilm: mechanism and application.Bioresource technology. 2019, 271: 439-448. (ESI高被引论文,IF: 6.669)

(8) Liang, P, Duan, R, Jiang, Y*, Zhang, X, Qiu, Y*, Huang, X*. One-year operation of 1000-L modularized microbial fuel cell for municipal wastewater treatment. Water Research. 2018;141: 1-8.ESI高被引论文,IF: 7.913

(9)Jiang Y, Zeng RJ. Expanding the product spectrum of value added chemicals in microbial electrosynthesis through integrated process design—a review. Bioresource technology. 2018, 269: 503-512. (IF: 6.669)

(10) Jiang, Y, Liang, P, Huang, X, et al. A novel microbial fuel cell sensor with a gas diffusion biocathode sensing element for water and air quality monitoring. Chemosphere. 2018, 203: 21-25.IF: 5.108

(11) Jiang, Y, Lu, L, et al. Electrochemical control of redox potential arrests methanogenesis and regulates products in mixed culture electro-fermentation. ACS Sustainable Chemistry & Engineering. 2018, 6: 8650–8658IF: 6.97

(12) Jiang Y, Yang X, Liang P, et al. Microbial fuel cell sensors for water quality early warning systems: Fundamentals, signal resolution, optimization and future challenges. Renewable and Sustainable Energy Reviews. 2018, 81: 292-305.(ESI高被引论文,IF: 10.556)

(13)Jiang Y, Liang P, Liu P, et al. A novel microbial fuel cell sensor with biocathode sensing element. Biosensors and Bioelectronics. 2017;94:344-350. (IF: 9.518)

(14)Jiang Y, Liang P, Liu P, et al. A cathode-shared microbial fuel cell sensor array for water alert system. International Journal of Hydrogen Energy. 2017;42:4342-8. (IF: 4.08)

(15)Jiang Y, Liang P, Liu P, et al. Enhancement of the sensitivity of a microbial fuel cell sensor by transient-state operation. Environmental Science: Water Research & Technology. 2017;3 (3):472-479. (IF: 4.195)

(16)Jiang Y, Liang P, Liu P, et al. Enhancing Signal Output and Avoiding BOD/Toxicity Combined Shock Interference by Operating a Microbial Fuel Cell Sensor with an Optimized Background Concentration of Organic Matter.International Journal of Molecular Sciences. 2016;17:1392. (IF: 4.183)

(17)Jiang Y, Liang P, Zhang C et al. Periodic polarity reversal for stabilizing the pH in two-chamber microbial electrolysis cells. Applied Energy. 2016;165:670-5. (IF: 8.426)

(18)Jiang Y, Liang P, Zhang C, et al. Enhancing the response of microbial fuel cell based toxicity sensors to Cu (II) with the applying of flow-through electrodes and controlled anode potentials. Bioresource technology. 2015;190:367-72. (IF: 6.669)

(19)Jiang Y, Su M, Li D. Removal of sulfide and production of methane from carbon dioxide in microbial fuel cells–microbial electrolysis cell (MFCs–MEC) coupled system. Applied Biochemistry and Biotechnology. 2014;172:2720-31. (IF: 2.14)

(20)Jiang Y, Su M, Zhang Y, et al. Bioelectrochemical systems for simultaneously production of methane and acetate from carbon dioxide at relatively high rate. International Journal of Hydrogen Energy. 2013;38:3497-502. (IF: 4.08)

授权专利:

(1) 梁鹏、蒋永等,一种水质监测装置及其制备方法 ZL201410716689.8

(2) 梁鹏、蒋永等,一种微生物燃料电池及其制备和在水质预警中的应用 ZL201611233895.9

奖励与荣誉:

201807月  清华大学优秀博士毕业生

201807月  奥加诺水质与水环境二等奖

201807月  清华大学优秀博士学位论文二等奖

201712月  钱易环境奖一等奖学金

期刊审稿:

Water Research, Applied Catalysis B: Environmental, Applied Energy, Chemical Engineering Journal, Journal of Power Sources, Frontiers of Environmental Science and Engineering, Journal of Hazardous Materials,  Microbial Ecology, Industrial & Engineering Chemistry Research, Journal of Cleaner Production, Science of the Total Environment, International Journal of Hydrogen Energy, Bioelectrochemistry, Bioresource Technology Reports, Process Biochemistry, Journal of Bioscience and BioengineeringJournal of Chemical Technology & Biotechnology, International Journal of Energy Research, Environmental and Experimental Botany, Water Environment Research, and Scientific Reports.

学术ID及网页:

Web of Science ResearcherIDM-6292-2014

ORCID0000-0002-4968-3880

Publons: https://publons.com/researcher/1304998/yong-jiang/

Google scholar: 链接略

Researchgate: 链接略



 
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