刘伟凤

大连海事大学

环境科学与工程学院

2018.08-至今            副教授                 大连海事大学              环境工程

2016.09-2018.08         讲师                   大连海事大学              环境工程

2012.09 - 2016.06        博士                   浙江大学                  能源环境工程  

2009.09 -   2012.06      硕士                   山东大学                  环境科学与工程

2005.09   - 2009.06      学士                   山东大学                  环境工程    

研究方向与内容

长期从事生物电化学废水资源化利用技术研究工作。主要研究内容包括生物电化学系统构建和运行、催化剂设计合成、氧气还原催化机理解析、废水资源回收等。作为项目负责人主持国家自然科学基金、中国博士后科学基金、能源清洁利用国家重点实验室开放基金等三项科研课题；参与国家 863 课题、国家自然科学基金、浙江省自然科学基金等多项生物电化学相关研究项目。在相关领域发表 SCI 论文20余篇，累计他引 300余次，获授权国家发明专利7项。

代表性论文&专著

[1] Weifeng Liu, Lin Yin, Qi Jin, Yimin Zhu*, Jiao Zhao,   Libiao Zheng, Zihao Zhou, Bin Zhu. Sensing performance of a self-powered electrochemical sensor for   H2O2 detection based on microbial fuel cell. Journal of Electroanalytical   Chemistry 832 (2019) 97–104.

[2] Fuxing Tan, Linghua Zhang*, Weifeng Liu, Yimin Zhu.   Osmotic Pressure Compensated Solute Ectoine Improves Salt Tolerance of Microbial   Cells in Microbial Fuel Cells. Fuel Cells 19 (2019) 616–622.

[3] Xuelu Xu, Jiao Zhao*, Zihao Zhou, Qi Jin, Rongrong Mo, Weifeng   Liu, Yan Yang, and Yimin Zhu. Effect of multi-walled carbon nanotubes   addition on MnOx/Ti electrode prepared by spraying-calcination method for   electro-catalytic oxidation of Acid Red B. Journal of Material Science 54 (2019) 12509–12521.

[4] Weifeng Liu, Zihao Zhou, Lin Yin, Yimin Zhu⁎, Jiao   Zhao, Bin Zhu, Libiao Zheng, Qi Jin, Li Wang. A novel self-powered   bioelectrochemical sensor based on CoMn2O4 nanoparticle modified cathode for   sensitive and rapid detection of hydrogen peroxide. Sensors & Actuators: B. Chemical 271 (2018) 247–255. (SCI)   2018年10月15日

[5] Weifeng Liu, Shaoan Cheng*, Lin Yin, Yi Sun, Liliang Yu. Influence of soluble   microbial products on the long-term stability of air cathodes in microbial   fuel cells. Electrochimica Acta 261 (2018) 557-564. (SCI) 2018年1月20日

[6] Weifeng Liu, Yonggang Zhou, Shaoan Cheng*, Manyan Xu, Fujian Li. Microwave   Preparation of Catalyst Layer for Enhancing the Oxygen Reduction of Air   Cathode in Microbial Fuel Cells. International Journal of Electrochemical   Science 12 (2017) 2207–2218. 2017年3月

[7] Shaoan Cheng*, Weifeng Liu, Dan Sun, Haobin Huang.   Enhanced power production of microbial fuel cells by reducing the oxygen and   nitrogen functional groups of carbon cloth anode. Surface and Interface   Analysis 49 (2017) 410-418. 2017年5月

[8] Lin Guo, Weifeng Liu, Xiaojia Tang, Hui Wang, Quan Liu,   Yimin Zhu. Reaction kinetics of non-catalyzed jet aeration oxidation of   magnesium sulfite. Chemical Engineering Journal 330 (2017) 870–879. 2017年10月5日

[9] Weifeng Liu, Shaoan Cheng∗, Dan   Sun, Haobin Huang, Jie Chen, Kefa Cen. Inhibition of microbial growth on air   cathodes of single chamber microbial fuel cells by incorporating enrofloxacin   into the catalyst layer. Biosensors and Bioelectronics 72 (2015) 44-50. 2015年10月15日

[10] Shaoan Cheng*, Weifeng Liu, Jian Guo, Dan Sun, Bin   Pan, Yaoli Ye, Weijun Ding, Haobin Huang, Fujian Li. Effects of hydraulic   pressure on the performance of single chamber air-cathode microbial fuel   cells. Biosensors and Bioelectronics 56 (2014) 264–270. 2014年6月15日

[11] Weifeng Liu, Shaoan Cheng∗, Jian Guo. Anode   modification with formic acid: A simple and effective method to improve the   power generation of microbial fuel cells. Applied Surface Science 320 (2014)   281–286. 2014年11月30日

[12] Weifeng Liu, Shaoan Cheng∗.Microbial fuel   cells for energy production from wastewaters: the way toward practical   application. J Zhejiang Univ-Sci A (Appl Phys & Eng) 15 (2014) 841-861.   2014年11月

[13] 刘伟凤, 陈倩, 刘云堃, 李宁璨, 童航君, 张培林, 成少安*. 基于微生物燃料电池的污泥热值检测系统. 中国环境科学 34 (2014) 1491-1497. (EI) 2014年6月20日

[14] Weifeng Liu, Shaoan Cheng∗.   Performance Improvement of MFCs by Treatment of Carbon Cloth Anode with   Ultrasonic or Spent Anolyte. Advanced Materials Research Vol. 815   (2013) 409-414. (EI)

[15] Weifeng Liu, Jian Zhang*, Chenglu Zhang, Liang Ren.   Preparation and evaluation of activated carbon-based iron-containing   adsorbents for enhanced Cr(VI) removal: mechanism study. Chemical Engineering   Journal. 189 (2012) 295–302.

[16] Weifeng Liu, HuiJun Xie*, Jian Zhang, ChengLu Zhang.   Sorption removal of cephalexin by HNO3 and H2O2 oxidized activated carbons.   SCIENCE CHINA Chemistry. 1(2012) 1-9.

[17] Weifeng Liu, Jian Zhang*, Chenglu Zhang, Liang Ren.   Sorption of norfloxacin by lotus stalk-based activated carbon and iron-doped   activated alumina: Mechanisms, isotherms and kinetics. Chemical Engineering   Journal. 171 (2011) 431–438.

[18] Weifeng Liu, Jian Zhang, Cheng Cheng, GuipengTian,   Chenglu Zhang. Ultrasonic-assisted sodium hypochlorite oxidation of activated   carbons for enhanced removal of Co(II) from aqueous solutions. Chemical   Engineering Journal. 175 (2011) 24-32.

[19] Weifeng Liu, Jian Zhang*, Chenglu Zhang, YifuWang, Ye   Li. Adsorptive removal of Cr (VI) by Fe-modified activated carbon prepared   from Trapa natans husk. Chemical Engineering Journal. 162 (2010) 677–684.

[20] Shaoan Cheng, Weifeng Liu. Electrochemically Enabled   Sustainability: Devices, Materials, and Mechanisms for Energy Conversion.   Taylor & Francis, 2014. 编写本书第二章“Chapter 2: Microbial fuel cells and other bio-electrochemical   conversion devices”