王平
发布人:生工学院网站管理员  发布时间:2016-10-19   动态浏览次数:18

王平

生物化学与分子生物学专业:博士生导师/硕士生导师
    生物化工专业:博士生导师/硕士生导师
    生物工程领域:工程硕士生导师

教育经历
1981.9-1985.7 
华东理工大学化工系,学士学位
1985.9-1988.7 
华东理工大学化工系,硕士学位
1988.9-1990.5 
华东理工大学化工系,博士课程
1991.9-1995.2 
美国Tufts大学化工系,博士学位

主要科研经历
2011
6– 至今  华东理工大学 国家 “千人计划” 特聘教授
2005
6 – 至今 美国明尼苏达大学生物化学工程和生物产品教授(Professor)
2005.9-2006.8 
美国Akron大学化工系副教授 (Associate Professor)
1999.9-2005.8  
美国Akron大学化工系助理教授 (Assistant Professor)
1997.5-1999.8 
美国Oak Ridge国家实验室生物过程/生物催化中心,博士后
1995.2-1997.4 
美国Iowa大学生物催化/生物化工系,博士后
1990.5-1991.7 
美国Massachusetts Institute of Technology(MIT)化工系,研究访问

主要学术任职
2009   -
至今 《Applied Biochemistry & Biotechnology》期刊副主编
2004.1-
至今 《Applied Biochemistry and Biotechnology》编委
2003.1-
至今 《Biotechnology and Bioengineering》编委
2003.1-
至今 《China Particuology》编委
2002   -
至今  美国自然科学基金项目评审
2001   -
至今  Akron大学学术委员会成员
2000   -
至今  美国化学学会和化学工程学年会分会主持(Session Chair
2000   -
至今  美国农业部和美国化学学会项目评审人,并任多个期刊的审稿人:《Journal of the American Chemical Society》,《Biomacromolecules, Biomaterials》,《Polymer Engineering and Science》,《Biotechnology Progress》,《Chemistry – A European Journal》,《Trends in Biotechnology》,《Encyclopedia of Polymer Science and Technology》 等。

各类荣誉 
2010               
第五批国家 千人计划入选者
2006               
国家自然科学基金杰出青年基金(海外,2007
2004               National Science Foundation
 CAREER Award  
2005               Guest Editor, Special issue of China Particuology, 3(6), 2005. 
Since 2004   
 Editorial Board:  Applied Biochemistry and Biotechnology
Since 2003    
Editorial Board:  Biotechnology and Bioengineering
Since 2003   
Editorial Board:  China Particuology

Since 2004    Adjunct Professor, Institute of Process Engineering, National Key Lab of Biochemical Engineering, Chinese Academy of Sciences, Beijing, China.
Since 2000   
Meeting Organization/Session chairs: 

                         AIChE 2005   Annual Meeting. Nanotechnology in Biocatalysis, NSEF Division. Oct. 30 – Nov. 4, 2005. Cincinnati, OH. 

                         Enzyme Engineering XVIII. Novel approaches in Biocatalysis, Oct. 9-14, 2005.  Kyung Ju, Korea.

                         ACS 230th National Meeting.  Nanoscale Science and Technology in Biomolecular Catalysis: Nanostructures and Bio-applications.  Aug. 28-Sept. 1, 2005.

                          Biochemical Engineering XIV. Session 5: Biodevices, BioMEMs and biomedical nanotechnology. July 10-14, 2005. Harrison Hot Springs, BC, Canada.
     
                         AIChE 2003 Annual Meeting. Advances in Biocatalysis and Protein Engineering. Nov. 16-21, 2003, San Francisco, CA.  
     
                         AIChE 2002 Annual Meeting.  Advances in Biocatalysis and Protein Engineering.  Nov. 3-8, 2002, Indianapolis, Indiana. 

                         ACS 221st National Meeting. Bio-Based Products from Renewable Resources. April 1-5, 2001, San Diego, CA.  
 
Since 2003   
NSF Proposal Review Panels

Since 2001   Faculty Research Committee, The University of Akron
 
Since 2000   
Reviewer of manuscripts for journals including J. Am. Chem. Soc., Biomacromolecules, Biotechnology Progress, and Trends in Biotechnology; Encyclopedia of Polymer Science and Technology; proposal reviewer for NSF, ACS PRF program and National Research Initiative Competitive Grant Program of the US Department of Agriculture, etc

媒体报导
2008     “Enzyme-coated plastic could mean self-cleaning fabrics,” by Jon Evans,
New Scientist, London, England, May 12, 2008. (Reported our research on enzyme-based coatings conducted at UMN after its publication, with comments from internationally reputed scientist in the field.)
2004     “UA Professor Honored,” Hudson Hub Times, p29.  March 21, 2004. 
1997     “Just One Word: Plastics,” R. Peters and R. Sikorski, Science, Vol. 277, p1849, 1997. 
1997     “Industrial Applications Open Up For Polymer-linked Enzymes,” Rebecca Rawls,
Chemical & Engineering News, April 28, p27-28, 1997.
1996     “Chemists Clean Ceramics and Coat Enzymes in Plastics – Plastic Enzymes,” Robert F. Service, Science, Vol. 272, p196-197, 1996.
1996     “
New Route to Poly(hydroquinone) Utilizes Enzyme Catalysis,” Science/Technology Concentrates, Chemical & Engineering News, January 8, p22, 1996.

主要论著
BOOK AND BOOK CHAPTERS

8. Book: Nanoscale biocatalysis.  Series volume for Methods in Molecular Biology. Editor: Ping Wang.  The Humana Press Inc.2011
7. Book Chapter:  Nanoporous Silica Glass for the Immobilization of Interactive Enzyme Systems.  Andreas Buthe, Songtao Wu and Ping Wang*.  Chapter 5 of Methods in Molecular Biology: Enzyme Stabilization and Immobilization: Methods and Protocols, Vol. 679, P37-48, 2010.  (Humana Press).    (ISBN 978-1-60761-894-2)
6. Book Chapter:  X. Tong, S. Wu and Ping Wang.  Chapter 3: nanoparticle-Enzyme Hybrids as Bioactive Materials, in Nanoscale Bioengineering and Nanomedicine. Editors: Kaushal Rege, Igor L. Medintz.  Methods in Bioengineering Series.  Artech House, Boston, 2009.  P39-51 (ISBN-13: 978-1-59693-410-8).
5. J. Kim, S. Kim, Ping Wang.  ASC Symposium Series 986: Nanoscale Science and Engineering in Biomolecular Catalysis.  ACS Publication, 2008.
4. H. Jia, X. Zhao , J. Kim, Ping Wang. Carbon Nanotube Composite Electrodes for Biofuel Cells.  in Nanoscale Science and Engineering in Biomolecular Catalysis.  ACS Symposium Series 986. American Chemical Society, NY, 2008.
3. S. Zhang, Ping Wang.  A new area of biocatalysis and biotransformation – nanoscale biocatalyst systems.  In Z. Chen, L. Kang and S. L. Yang ed., Report on Progress in Industrial Biotechnology 2007.  Chinese Academy of Sciences, P 163-168, 2007 (Chinese).
2. Ping Wang, Nonconventional biocatalysis for production of chemicals and polymers from biomass, in Bioprocessing for Value-Added Products from Renewable Resources, Edited by  S.T. Yang.  Elsevier., p325-350, 2007.
1. Ping Wang, H. Jia, Power-generation from biorenewable resources: Biocatalysis in Biofuel Cells, in Bioprocessing for Value-Added Products from Renewable Resources, Edited by S.T. Yang.  Elsevier. p507-525, 2007.)

REFEREED JOURNAL PUBLICATIONS 
 
48. C. Liu, S. Zhang, Z. Su and P. Wang*.  Salt Induced Irreversible Protein Adsorption with Extremely High Loadings on Electrospun Nanofibers. Langmuir.  27(2): 760-765, 2011. 
47. Y. Zhang, F. Gao, S. Zhang, G. Ma and P. Wang*.  Simultaneous Production of 1, 3-Dihydroxyacetone and Xylitol from Glycerol and Xylose Using a Nanoparticle-Supported Multi-Enzyme System.   Bioresource Technology. 102: 1837-1843, 2011.
46. B. C. Kim, X. Zhao, H.-K. Ahn, J. H. Kim, H.-J. Lee, K. W. Kim, S.h Nair, E. Hsiao, H. Jia, M.-K. Oh, B. I. Sang, B.-S. Kim, S. H. Kim, Y. Kwon, S. Ha, M. B. Gu, P. Wang,* J. Kim,*  Highly Stable Enzyme Precipitate Coatings and Their Electrochemical Applications.  Biosensors and Bioelectronics. 26: 1980-1986, 2011.
45. X. Tong, B. El-Zahab, X. Zhao, Y. Liu and P. Wang*.  Enzymatic Synthesis of L-Lactic Acid from Carbon Dioxide and Ethanol with an Inherent Cofactor Regeneration Cycle.  Biotechnol. Bioeng. 108: 465-469, 2011.
44. K. Y. Kwon, J. Youn, J. Kim, Y. Park, C. Jeon, B. Kim, Y. Kwon, X. Zhao, P. Wang, B. Sang, J. Lee, H. Park, H. Chang, T. Hyeon, S. Ha, H. Jung, J. Kim.  Nanoscale Enzyme Reactors in Mesoporous Carbon for Improved Performance and Lifetime of Biosensors and biofuel Cells.  Biosensors and Bioelectronics. Accepted, in press (2010).
44. H. Jia and P. Wang.  Biocatalytic Generation of Power from Biofuels: Biofuel Cells.  Biofuels. 1(3): 479-492, 2010.
43. X. Zhao, X. Lu, W. T. Y. Tze, P. Wang*.   A Single Carbon Fiber Microelectrode with Branching Carbon Nanotubes for Bioelectrochemical Processes.  Biosensors and Bioelectronics. 25: 2343-2350, 2010.
42. S. Baskaya, M. Flickinger, P. Wang*.  Thermodynamic Flexibility for Enzymatic Reduction of Carbon Dioxide to Methanol.  Applied Biochem. Biotechnol. 162:391-398, 2010. 
41. Xueyan Zhao, H.  Jia, J. B. Kim and P. Wang.  Kinetic limitations of a bioelectrochemical electrode using carbon nanotubes-attached glucose oxidase for biofuel cells.  Biotechnology and Bioengineering. 104(6), 1068-1074, 2009.
40. Shida Miao, S. P. Zhang, Z. G. Su, P. Wang, A Novel Vegetable Oil-Lactate Hybrid Monomer for Synthesis of High-Tg Polyurethanes.   Polymer Science  A: Polymer chemistry, 48, 243-250, 2010.  39.  R. Naryayanan, B. L. Stottrup, P. Wang.  Surface packing characterization of Langmuir monolayer anchored enzyme.   Langmuir.  25(18), 10660-10665, 2009.
38. G. Gao, Z-G Su, P. Wang*, G H Ma*.  Double Emulsion Templated Microcapsules with Single Hollow Cavities and Thickness-Controllable Shells.  Langmuir.  25, 3832-3838, 2009.  
37. J. Kim*, J. Grate, P. Wang*.  Nanoscale biocatalysts and their applications.  Trend in Biotechnology.  26(11), 639-646, 2009.
36. W. Liu, S. Zhang and P. Wang*.  Nanoparticle Supported Multienzyme Catalysis with in situ Cofactor Regeneration.  J. Biotechnol.  139: 102-107, 2009. 
35. P. Wang.  Multiscale Features in Recent Development of Biocatalyst Systems. Invited review.  Applied Biochemistry and Biotechnology.  152(2), 343-352, 2009.
34. F. S. Baskaya, M. C. Flickinger, P. Wang*. Thermodynamic flexibility of enzymatic reduction of sequestrated carbon dioxide to methanol.  Submitted.
33. S. Miao, S. Zhang, Z. Su, P. Wang*. Chemoenzymatic Synthesis of Oleic Acid- Based Polymers.  Polymer Science A: Polymer Chemistry.  In press.
33. X. Tong, A. Trivedi, H. J. M. Zhang, P. Wang*.  Enzymic thin film coatings for bioactive materials.   Biotechnology Progress. In press.
32. Bilal El-Zahab, Ping Wang*. Particle-Attached NADH for Methanol Production from CO2 Catalyzed by Coimmobilized Enzymes.   Biotechnology Bioengineering, 99(3), 508-514, 2008.
31. Hongfei Jia and Ping Wang*, Enzymatic synthesis of galactosyl lactic ethyl ester and its polymer for use as biomaterials.  Journal of Biotechnology. 132, 314-317, 2007.
30. Xueyan Zhao, Bilal El-Zahab, Ryan Brosnahan, Justin Perry, Ping Wang*, An Organic Soluble Lipase for Water-Free Synthesis of Biodiesel.  Applied Biochemistry and Biotechnology.143(3), 236-243, 2007.  
29. W. Liu and Ping Wang*.  Synthetic Biotechnology with Sustainable Coenzyme Regeneration.   Biotechnology Advances, 25, 369-384, 2007.
28. C. M. Il Kim, M., J. Kim, J. Lee, H. Jia, H. Bin Na, J. K. Youn, J. H. Kwak, A. Dohnalkova, J. W. Grate, P. Wang, T. Hyeon, H. G. Park and H. N. Change. Crosslinked enzyme aggregates in hierarchically-ordered mesoporous silica: A simple and effective method for enzyme stabilization. Biotechnol. Bioeng. 96(2): 210-218, 2007.
27. Ravindrabharathi Narayanan, Guangyu Zhu and Ping Wang*. Stabilization of Interface-Binding Chloroperoxidase for Interfacial Biotransformation.  Journal of Biotechnology.  128(1), 86-92, 2007.
26. S. Zhang and Ping Wang*. Chemical Modification – an important tool in advancing enzyme technology (
化学修饰-提高酶催化性能的重要工具). 生物加工过程 (Chinese Journal of Bioprocess Engineering), 4 (1): 4-8, 2006.
25. Kim, J., H. F. Jia, C. W. Lee, S. W. Chung, J. H. Kwak, Y. Shin, A. Dohnalkova, B. G. Kim, P. Wang and J. W. Grate. Single enzyme nanoparticles in nanoporous silica: A hierarchical approach to enzyme stabilization and immobilization.  Enzyme and Microbial Technol. 39(3): 474-480, 2006.
24. Fischback, M. B., J. K. Youn, X. Zhao, P. Wang, H. G. Park, H. N. Chang, J. Kim and S. Ha. "Miniature biofuel cells with improved stability under continuous operation." Electroanalysis 18: 2016-2022, 2006.
23. Ping Wang*.  Nanoscale Biocatalyst Systems.  Current Opinion in Biotechnology. Invited review. 17: 574-579, 2006.
22. J. Kim, H. Jia, Ping Wang*. Challenges in Biocatalysis for Biofuel Cells.  Biotechnology Advances. 24(3): 296-308, 2006.
21. J. Kim, J. W. Gate, Ping Wang. Nanostructures for Enzyme Stabilization.  J. Chem. Eng. Sci., 61(3), 1017-1026, 2006.
20. P. Wang*, G. Ma, L. Liao and F. Gao.  Construction of Multienzyme Bioactive Systems using a Multiscale Design Approach.  China Particuology.  3(6), 304-309, 2005.
19. Lee, J., J. Kim, J. Kim, H. Jia, M. I. Kim, J. H. Kwak, S. Jin, A. Dohnalkova, H. G. Park, H. N. Chang, P. Wang, J. W. Grate and T. Hyeon. "Simple Synthesis of Hierarchically Ordered Mesocellular Mesoporous Silica Materials Hosting Crosslinked Enzyme Aggregates." Small 1(7): 744-753, 2005.
18. L. Wang, G. Zhu, P. Wang and B. M. Z. Newby.  Self-assembling of polymer-enzyme conjugates at oil/water interfaces.  Biotechnology Progress.  21(4): 1321-1328, 2005.
17. G. Zhu, Ping Wang*, Novel Interface-Binding Chloroperoxidase for Interfacial Epoxidation Reaction. J. Biotechnology. 117(2): 137-213, 2005.
16. K. A. Distel, G. Zhu, Ping Wang*. Biocatalysis using an organic-soluble enzyme for the preparation of poly(lactic acid in organic solvents.  Bioresource Technology.  96(5): 617-623, 2005.
15. G. Zhu, Ping Wang*.  Polymer-Enzyme Conjugates Self-Assemble and Catalyze Reactions at Oil-Water Interface.  J. Am. Chem. Soc. 126 (36), 11132-11133, 2004.
14. B. El-Zahab, Ping Wang*. Enabling Multistep Reactions Using Nanoporous Materials. Biotechnology and Bioengineering. 87(2), 178-183, 2004.
13. B. El-Zahab, L. Meza, T. J. Cutright, Ping Wang*.  Enzymatic Degradation of TCE Using Enzyme Extracts Isolated From a Bacterial Consortium. Applied Biochemistry and Biotechnology. 117(3):165-174, 2004.
12. L. Meza, T. Cutright, B. El-Zahab, P. Wang. Biodegradation of TCE Using a New Aerobic Bacterial Consortium.  Biotechnology Letters.  25: 1925-1932, 2003.
11. H. Jia, G. Zhu, Ping Wang*.  Catalytic Behaviors Associated with Enzymes Attached to Nanoparticles: The Effect of Particle Mobility. Biotechnology and Bioengineering. 84:406-414, 2003.
10. H. Jia, G. Y. Zhu, B. Vugrinovich, W. Kataphinan, D. H. Reneker, Ping Wang*.  Enzyme-Carrying Polymeric Nanofibers Prepared via Electrospinning for Use as Unique Biocatalysts. Biotechnology Progress, 18: 1027-1032, 2002. 
9.  Ping Wang, S. Dai, S.D. Waezsada, A. Tsao, and B.H. Davison. Enzyme Stabilization by Covalent Binding in Nanoporous Sol-gel Glass for Nonaqueous Biocatalysis.  Biotechnology and Bioengineering, 74(3): 249-255, 2001.
8. Ping Wang, C. A. Woodward, E. N. Kaufman. Poly(ethylene glycol)-modified ligninase enhances pentachlorophenol biodegradation in water-solvent mixtures. Biotechnology and Bioengineering,  64(3): 290-197, 1999.
7. Ping Wang, N. S. Schneider, Nak-Ho Sung. Sorption and diffusion of organic vapors in two fluoroelastomers.  Journal of Applied Polymer Science, 71:1525-1535, 1999.
6. Ping Wang, J. S. Dordick. Enzymatic synthesis of unique thymidine-containing polyphenole. Macromolecules, 31: 941-943, 1998.
5. Ping Wang, S. Amarasinghe, M. Arnold, J. Leddy, J. S. Dordick. Enzmatically prepared poly(hydroquinone) as a mediator for amperometric glucose sensors. Polymer, 39(1): 123-127, 1998.
4. Ping Wang, M. S. Sergueeva, L. Lim, J. S. Dordick. Biocatalytic plastics as active and stable materials for biotransformations.  Nature Biotechnology, 15:789-793, 1997. (This work was reported and discussed in C&EN, April 28, p27-28, 1997; Science, vol. 277, p1849, Sept. 19, 1997)
3. J. O. Rich, Ping Wang, B. D. Martin, N. Patil, M. S. Sergueeva, J. S. Dordick. Biocatalysis in organic solvents for the production of fine chemicals and specialty polymers. Chimia, 50: 423-429, 1996.
2.  Ping Wang, J. Meldon, Nak-Ho Sung. Heat-effects in sorption of organic vapors in rubbery polymers. Journal of Applied Polymer Science, 59(6): 937-944, 1996.
1. Ping Wang, B. D. Martin, D. G. Rethwisch and J. S. Dordick. Multienzymic synthesis of poly(hydroquinone) for use as a redox polymer.  Journal of the American Chemical Society, 117: 12885-6, 1995.  (This paper was reported as news in Science/Technology Concentrates, C&EN, January 8, p22, 1996) 

联系方式:
E-mail: pwang11@ecust.edu.cn