Dr. Fu Yubin, Professor, Doctor Tutor
Department of Materials Science and Engineering
E-Mail: ffyybb@ouc.edu.cn
Research Interests:
(1)Electrode electrochemistry and novel sensor for marine development
(2)Novel marine bio-energy and bio-power for ocean floor electronic equipment work
Biography:
Education experience
PhD, Condensed Matter Physics, Institute of Solid Physics, ChinaAcademy of Science (CAS), Hefei, Anhui, China.
MA,Institute of Materials and Chemical Engineering, BeijingInstitute of Technology, Beijing, China.
BS, Department of Chemistry, Henan Normal University, HenanProvince, China.
Job experience
1994-2006,Luoyang Ship Material Research Institute, Luoyang, China. Engaged inbiological antifouling materials and technology for ship and marine engineering.
2007-Present, Ocean University of China, Qingdao, China.
Research concerning novel marine bio-energy technology and application, the interfacial electric interaction between electrode and sea water/ biofilm.
Projects:
(1) National Project: Marine special electrodes and electric field sensor technology, Rank first, 2000000 RMB, 2022-2024
(2) National Project: Marine electric field sensor and its application in alternate extreme cool temperature, Rank first, 400000 RMB, 2024-2025.
(3) National Natural Science Fund: Effect of the marine sediment organic matter on the electrochemical performance of anode in the sea mud battery and its diffusion kinetics. Rank first, 744000 RMB, 2021-2024.
(4) National Project: Marine electric field sensor technology, Rank first, 1000000 RMB, 2018-2021.
(5) National Project: The key technology of cathode of sediment microbial fuel cell in deep ocean, Rank first, 800000 RMB, 2018-2020.
(6) National Project: Harvesting technology of bio-energy in deep ocean, Rank first, 1000000 RMB, 2017-2018.
(7) Power source and supply key technology for marine monitor equipmentby using marine sediment microbial fuel cell and its long-term sea test. 2011-2014. GHME2011GD04. National Ocean Bureau. RMB1800000. Rank first.
(8) Interfacial properties between modified anode and biofilm and its kinetic activity of electron transfer in marine sediment microbialfuel cell. 2011-2014. ZR2011BZ008.Keyfund of Natural Science of Shandong Province, China. RMB140000. Rank first.
(9) Novel marine electrode .2011-2016. 2012AA09A20101—C. National 863 Branch Project.RMB1200000. Rank first.
(10) Surface modification technology of anode in marine sedimentmicrobial fuel cell. 2008-2010. 2008GG10007003.Techonology Application Project of Shandong Province, China. RMB200000. Rank first.
(11) Marine bio-antifouling materials and test technology. 2001-2005.National Fundamental Key Project. RMB 1500000. Rank first.
(12) Fabrication research of marine bio-antifouling active substance for marine. 2000-2002. National Fundamental Project. RMB 100000. Rank first.
(13)Metalized lipid self-assembly microtubule structure and its electro-magnetic property. 2000-2001. National Fundamental Project.RMB 80000. Rank first.
(14) Metalized lipid self-assembly microtubule structure and its mechanism. 2002-2003. National Fundamental Project. RMB 80000. Rank first.
(15) Effect of bacterial biofilm on the attachment of fouling organism on ship hull. 1996-1999. National Fundamental Project. RMB 100000. Rank first.
Part projects for serving society
(1) Al tube leakage analysis in the refrigerator and prevention (Lead, China HaierGroup)
(2) Compressor valve break failure and mechanism analysis inrefrigerators (Lead, China Haier Group)
(3) Corrosion life evaluation of underway water tube net of 1ststeel furnace in Shanghai Bao-gang Steel Group (Participation,Shanghai Bao-gang Steel Group)
(4) Corrosion evaluation of copper plate for heat exchange and its application in marine biological culture (Lead, AmericanInternational Copper Association).
(5) Stress calculation and corrosion evaluation of several steels inhigh-pressure chemical vessel (Lead, China Wan-Hua Chemical Group).
(6) Change design and failure analysis of Cu replacement by Al in homeelectric equipments (Lead, China HiSense Group)
Research output:
1. Ang Liu, Yubin Fu et al. Effect of oxygencontaining groups on electrochemical and marine electric field response properties of carbon fiber electrode. IEEE Sensors Journal, 2022.7,22(14)13864
2. Yongkang Han, Yubin Fu et al. Electrochemical and electric field response properties of highly sensitive electrodes based on carbon fiber with oxygen and nitrogen surface groups. IEEE Sensors Journal, 2019.6, 19(11) 3966.
3. Ming Ying, Yubin Fu et al. Improving electrochemical performance of carbon felt anode by modifying with akaganeite in marine benthic microbial fuel cells. Fuel Cells, 2019, 19(2) 190.
4. Haoshuang Zhang et al. A novel anode modified by dihydroxyanthraquinone/multi-walled carbon nanotubes composite in marine sediment microbial fuel cells and its electrochemical performance. International Journal of Energy Research,2018,42,2574-2582.
5. Man Guo, Yubin Fu, etal. Effect of Amino Acid Addition in Marine Sediment on Electrochemical Performance in Microbial Fuel Cells. Fuel Cells,2018,DOI: 10.1002/fuce.201800021
6. Changyang Zhou, Yubin Fu et al. Structure design and performance comparison of large-scale marine sediment microbial fuel cells in lab and real sea as power source to drive monitoring instruments for long-term work. Ionics, 2018,24(3), 797-805
7. Jingzhe Zai, Yubin FU et al. Fabrication of novel Ag/AgCl electrode pair on the template of carbon foam as marine electric field sensor and its electrochemical performances. Ionics. 2017,23(8),2213-2219.
8. Wei Chen, Zhaohui Liu, Ge Su, Yubin Fu*, et al, Composite Modified Anode by MnO2/Polypyrrole in Marine Benthic Microbial Fuel Cells and its Electrochemical Performance. International Journal of Energy Research, 2017, 41(6)845-853.
9. Y.B. Fu, Z.H. Liu, G. Su et al, Modified carbon anode by MWCNTs/PANI used in marine sediment microbial fuel cell and its electrochemical performance, Fuel Cells. 16 (2016) 377–383.
10. Yubin FU, Qian XU, et al. Low electrical potential anode modified with Fe/ferric oxide and its application in marine benthic microbial fuel cell with higher voltage and power output. Applied Surface Science, 2014, 289, 472-477.
11. Yubin FU, Jian Yu, et al. Graphite coated with Mangnese oxide/multiwalled carbon nanotube composites as anodes in marine benthonic microbial fuel cells. Applied Surface Science, 2014, 317, 84-89.
12. Many Patents have been registered in our teams.
