赵智强

个人信息Personal Information

教授

博士生导师

硕士生导师

性别:男

毕业院校:大连理工大学

学位:博士

所在单位:环境学院

学科:环境工程

办公地点:西部校区 新环境楼 B607

电子邮箱:zhiqiangzhao@dlut.edu.cn

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赵智强,1989年生,教授、博导、国家重点研发计划青年科学家项目首席、大连市高层次人才(高端人才)


学术兼职:

国际水协(IWA)中国青年委员会委员

中国沼气学会青年专家委员会委员

Chinese Chemical Letters、Carbon Research期刊青年编委


主要研究方向:

有机废弃物厌氧消化产甲烷的微生物新原理与技术

低劣生物质高效转化甲烷的人工多细胞体系构建与强化

产甲烷古菌与甲烷氧化古菌的胞内/外电子传递强化机制


代表性项目:

国家重点研发计划青年科学家项目,低劣生物质高效转化甲烷的人工多细胞体系的构建与应用,2022YFA0913100,2022.11-2027.10,在研,主持

国家重点研发计划子课题,纳米铁介导有机废水微生物处理过程的电子传递特性与分子机制,2021YFA1201702,2021.12-2026.11,在研,主持

国家自然科学基金面上项目,基于Na+调控的直接种间电子传递产甲烷菌胞内呼吸机制及其在厌氧消化的应用,52170125,2022.1-2025.12. 在研,主持

国家自然科学基金青年科学基金项目,乙醇应用于厌氧消化中直接种间电子传递的构建及其调控机制,51808097,2018.01-2021.12. 结题,主持


代表性论文:

Zhao, Zhiqiang*,et al.  Glycol/glycerol-fed electrically conductive aggregates suggest a mechanism of stimulating direct interspecies electron transfer in methanogenic digesters. Water Research  217 (2022): 118448

Zhao,Zhiqiang*,et al. High-efficiency methanogenesis via kitchen wastes served as ethanol source to establish direct interspecies electron transfer during anaerobic Co-digestion with waste activated sludge. Water Research 176 (2020): 115763

Zhao,Zhiqiang,et al. Why do DIETers Like Drinking: Metagenomic Analysis for Methane and Energy Metabolism during Anaerobic Digestion with Ethanol. Water Research 171 (2020): 115425.

Zhao, Zhiqiang, et al. Towards engineering application: Potential mechanism for enhancing anaerobic digestion of complex organic waste with different types of conductive materials. Water Research 115 (2017): 266-277. (ESI高被引论文

Zhao, Zhiqiang, et al. Communities stimulated with ethanol to perform direct interspecies electron transfer for syntrophic metabolism of propionate and butyrate. Water Research 102 (2016): 475-484. 

Zhao, Zhiqiang, et al. Sparking Anaerobic Digestion: Promoting Direct Interspecies Electron Transfer to Enhance Methane Production. iScience 23 (2020): 101794 Review Paper (Exemption of Publishing Fee)

Zhao, Zhiqiang*, et al. Elucidation of the complete degradation mechanism of N,N-dimethylformamide (DMF) and substrate preference within a synthetic bacterial consortium (DMFsyn) formed via a “top-down” strategy. Chemical Engineering Journal 479 (2024):147658.

Zhao, Zhiqiang*, et al. Accelerating anaerobic oxidation of methane coupled with extracellular electron transfer to electrodes via magnetite stimulating membrane-bound proteins of anaerobic methanotrophic (ANME) archaea/methanogens. Chemical Engineering Journal 462 (2023):142266.

Zhao, Zhiqiang*, et al. Magnetite-mediated Electrically Connected Community for Shortening Startup of Methane-dependent Denitrification in A Membrane Biofilm Reactor. Chemical Engineering Journal  428 (2022): 132004.

Zhao,Zhiqiang,et al. Driving microbial sulfur cycle for phenol degradation coupled with Cr(VI) reduction via Fe(III)/Fe(II) transformation. Chemical Engineering Journal 393 (2020): 124801.

Zhao, Zhiqiang, et al. Potentially shifting from interspecies hydrogen transfer to direct interspecies electron transfer for syntrophic metabolism to resist acidic impact with conductive carbon cloth. Chemical Engineering Journal 313 (2017): 10-18. (ESI高被引论文

Zhao,Zhiqiang*,et al. Independent of Direct Interspecies Electron Transfer: Magnetite-mediated Sulphur Cycle for Anaerobic Degradation of Benzoate under Low-concentration Sulphate Conditions. Journal of Hazardous Materials  423 (2022): 127051

Zhiqiang Zhao*, et al. Enhancing anaerobic degradation of phenol to methane via solubilizing Fe (III) oxides for dissimilatory iron reduction with organic chelates. Bioresource Technology 291 (2019) 121858.

Zhao, Zhiqiang, et al. Potential enhancement of direct interspecies electron transfer for syntrophic metabolism of propionate and butyrate with biochar in up-flow anaerobic sludge blanket reactors. Bioresource Technology 209 (2016): 148-156.

Zhao, Zhiqiang, et al. Enhancing syntrophic metabolism in up-flow anaerobic sludge blanket reactors with conductive carbon materials. Bioresource Technology 191 (2015): 140-145. (ESI高被引论文

Zhao, Zhiqiang*, et al. Potential of direct interspecies electron transfer in synergetic enhancement of methanogenesis and sulfate removal in an up-flow anaerobic sludge blanket reactor with magnetite. Science of the Total Environment 677 (2019): 299-306.

Zhao, Zhiqiang, et al. Engineering Enhanced Anaerobic Digestion: Benefits of Ethanol Fermentation Pretreatment for Boosting Direct Interspecies Electron Transfer. Energy, 228 (2021): 120643, Perspective Paper (Invitation Only)

Zhao, Zhiqiang, et al. Establishing Direct Interspecies Electron Transfer during Laboratory-Scale Anaerobic Digestion of Waste Activated Sludge via Biological Ethanol-Type Fermentation Pretreatment. ACS Sustainable Chemistry & Engineering 6 (2018): 13066-13077.

Zhao, Zhiqiang, et al. New application of ethanol-type fermentation: stimulating methanogenic communities with ethanol to perform direct interspecies electron transfer. ACS Sustainable Chemistry & Engineering 5 (2017): 9441-9453.

Zhao, Zhiqiang*, et al. Electrically Conductive Biofilms Assembled by Magnetite in Anaerobic Oxidation of Methane Coupled to Debromination/Denitrification. ACS ES&T Water 2 (2022): 1602-1613.

Zhao, Zhiqiang*, et al. Enhancing anaerobic digestion of kitchen wastes with biochar: Link between different properties and critical mechanisms of promoting interspecies electron transfer. Renewable Energy 167 (2021): 791-799.

Zhao, Zhiqiang, et al. Upgrading current method of anaerobic co-digestion of waste activated sludge for high-efficiency methanogenesis: Establishing direct interspecies electron transfer via ethanol-type fermentation. Renewable Energy 167 (2020): 523-533.

Zhao, Zhiqiang, et al. Application of ethanol-type fermentation in establishment of direct interspecies electron transfer: A practical engineering case study. Renewable Energy 167 (2019): 846-855.

Zhao, Zhiqiang*, et al. Facilitating direct interspecies electron transfer in anaerobic digestion via speeding up transmembrane transport of electrons and CO2 reduction in methanogens by Na+ adjustment. Waste Management 170 (2023): 252-260.

Zhao, Zhiqiang*, et al. Effects of magnetite on nitrate-dependent anaerobic oxidation of methane in an anaerobic membrane biofilm reactor: Metatranscriptomic analysis and mechanism prediction. Environmental Technology & Innovation 32 (2023): 103288.


赵智强, 李杨, 张耀斌. 厌氧消化中直接种间电子传递产甲烷机理研究与技术应用. 科学通报, 2020, 65: 1–1


授权专利:

张耀斌, 赵智强, 全燮, 李杨. 一种利用乙醇和生物炭加快厌氧丙酸和丁酸分解的方法. ZL201710026321.2

张耀斌, 赵智强, 全燮, 李杨. 一种基于磁铁矿和活性炭强化的两相厌氧处理装置与工艺. ZL201710350643.2

张耀斌, 高天阳, 赵智强. 一种新型低强度有机废水的厌氧膜电生物处理工艺. ZL201810097566.9

张耀斌, 金珍, 赵智强. 一种基于磁铁矿强化的工业废水厌氧脱硫装置及工艺. ZL201811113971.1

李杨, 车忻容, 李冲, 刘美珊, 赵智强, 柳丽芬, 张耀斌. 一种两相式高含固餐厨垃圾及城市剩余污泥厌氧产甲烷技术. ZL201911092602.3

赵智强, 张耀斌. 一种玉米秸秆乙醇型发酵耦合城市污泥厌氧共消化的装置与工艺. ZL201811113595.6

张耀斌, 王名威, 赵智强. 一种利用Fenton铁泥及含铁生物炭强化两相厌氧消化的装置与工艺. ZL202210156286.7


专著:

Zhao, Zhiqiang, and Yaobin Zhang. "A Promising Strategy for Renewable Energy Recovery: Conversion of Organic Wastes to Methane via Electromethanogenesis." Bioelectrosynthesis: Principles and Technologies for Value‐Added Products (2020): 71-94.

  • 教育经历Education Background
  • 工作经历Work Experience
  • 研究方向Research Focus
  • 社会兼职Social Affiliations
  • 厌氧微生物生态与修复
  • 厌氧生物处理与能源化