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教师名录
  • 张耀鹏
  • 1977-01-01
  • 学位:博士
  • 职称:研究员
  • 所属部门:化学纤维研究所
  • 导师身份:博士生导师
  • 课题组: 邵惠丽课题组

  • 职位:
  • 材料科学与工程学院副院长、纤维材料改性国家重点实验室副主任

  • 社会兼职:
  • EDITORIAL ACTIVITIES
    中国材料研究学会高分子材料与工程分会副秘书长
    Executive editorial board member: Chinese Journal of Tissue Engineering Research (2012-)
    Journal Reviewer: Soft Matter,Journal of Materials Chemistry B, Biomacromolecules, Materials Science & Engineering C, Composites Science and Technology Chemical Engineering and Processing: Process Intensification,Journal of Applied Polymer Science, Polymer Bulletin,Journal of Nanoscience and Nanotechnology etc.
    ACADEMIC MEMBERS
    Royal Society of Chemistry (2013-)
    Materials Research Society (2013-)
    Chinese MEMS & NEMS Society, CIS (2008-)
    Shanghai Textile Engineering Society (2008-)
    The Society of Chemical Engineers, Japan (2004-2007)
    Society for Chemistry & Micro-Nano Systems, Japan (2004-2007)

  • 研究方向:
  • 1、高性能人造动物丝仿生制备过程中的凝聚态结构调控
    2、复杂微流体芯片制备技术及微流体仿生纺丝
    3、基于丝素蛋白的生物医用材料

  • 荣誉获奖:
  • 2016年,上海市曙光学者
    2014年,中华医学科技奖三等奖,应用组织工程技术修复下尿路疾病的基础研究与临床应用(3/8)
    2014年,上海市科技进步二等奖,运用组织工程技术行下尿路重建的实验研究与临床应用(3/10)
    2013年,高等学校科学研究优秀成果奖科技进步二等奖,运用组织工程技术行下尿路重建的实验研究与临床应用(3/10)
    2013年,上海医学科技奖三等奖,运用组织工程技术行下尿路重建的实验研究与临床应用(3/5)
    2012年,上海市青年科技启明星(A类)
    2009年,上海市浦江人才
    2007年,中国纺织工业协会科学技术二等奖,聚乳酸纺丝及其产业化开发(9/11)
    2007年,国家精品课程,高分子化学(9/15)
    2007年,上海市晨光学者

  • 个人简历:
  • 张耀鹏,男,1977年生,教授、博士生导师,东华大学材料科学与工程学院副院长,纤维材料改性国家重点实验室副主任。东华大学博士(2002年),日本川村理化学研究所博士后(2004-2007年),日本秋田大学(2010年)和美国石溪大学(2016年)访问学者。主要研究方向为生物质纤维与微流体仿生技术。先后承担国家自然科学基金(7项,其中主持4项)、国家重点研发计划、上海市教委科研创新重点项目等项目10余项。曾获上海市、教育部等省部级科技进步奖3项,发表SCI论文60余篇,申请专利43项,授权23项,参编《化学纤维手册》、《绿色纤维和生态纺织新技术》专著2部。添食育蚕法制备多功能高强度蚕丝的工作被美国化学与工程新闻(C&EN)等多家国际媒体报道。作为组委会秘书长,举办“The Fiber Society’s Spring 2015”和“2017先进纤维与聚合物国际会议”等会议,受邀在欧洲材料研究学会、美国材料研究学会等做邀请报告20余次。先后入选上海市“浦江人才”、 “青年科技启明星”以及 “曙光学者”等。现兼任中国材料研究学会青年工作委员会常务理事、中国材料研究学会高分子材料与工程分会副秘书长、“中国组织工程研究”执行编委、上海市硅酸盐协会生物与环保专业委员会委员、美国纤维学会会员等。(2018-1-8)
    The present scope of Prof. Zhang’s work is silk based fiber and materials, including biomimetic spinning of spider silk and silkworm silk, electrospun silk fibroin scaffolds for tissue engineering and structure investigation of polymer fibers using synchrotron radiation technology. By mimicking the spinning process of silkworms, Prof. Zhang’s group successfully spun artificial silks tougher than natural silkworm silk from regenerated silk fibroin (RSF) aqueous solutions in air by using a dry spinning process, or even a bio-inspired microfluidic spinning process. In a green method to obtain functional silks, silkworms were fed a nanopartical-containing artificial diet and thus produced reinforced and ultraviolet resistant silks. Recombinant spider silk protein aqueous solution was also used to spin artificial silk. Synchrotron radiation wide-angle X-ray diffraction (WAXD) and small-angle X-ray scattering (SAXS) were adopted to investigate the aggregation mechanism of natural silk fibroin in silkworm gland and RSF in spinning process. Prof Zhang’s group also electrospun enhanced RSF scaffolds using entirely aqueous processing methods for tissue engineering, such as urethral reconstruction, and nerve regeneration. Several methods were applied to improve the mechanical properties of the silk fibroin scaffolds, including stretching in ethanol aqueous solution, preparing scaffolds with grill structures, compositing with tough native extracellular matrix. Moreover, the scaffolds were functionalized by growth factors to promote the nerve regeneration and neovascularization.

  • 学习及工作经历:
  • 1994-1998 湖北工业大学,高分子材料专业,学士
    1998-2002 东华大学,材料学专业,工学博士
    2004-2007日本川村理化学研究所,博士后
    2010 日本秋田大学,访问学者
    EDUCATION & TRAINING
    BSc Polymer Science & Engineering, Department of Chemistry and Engineering, Hubei University of Technology, Wuhan, China (1994-1998)
    Ph.D Materials Science, College of Materials Science and Engineering, Donghua University, Shanghai, China (1998-2002)
    Postdoctroal Research fellow: Polymer Chemistry Lab, Kawamura Institute of Chemical Research, Japan (2004-2007)
    Visiting scholar: Akita University, Japan (2010).
    Visiting Scholar Stony Brook University, USA (2016)

  • 主讲课程:
  • 高聚物合成工艺学(本科三年级)Polymer synthesis(for undergraduate)
    生物医用材料(留学生)Biomaterials Science (foreign graduate students)

  • 主要论文:
  • PUBLICATIONS since 200
    1. Chao Zhang, Huili Shao, Jie Luo, Xuechao Hu, Yaopeng Zhang*, Structure and Interaction of Silk Fibroin and Graphene Oxide in Concentrated Solution under Shear, Int. J. Biol. Macromol., 2018,107,2590-2597.
    2. Qingfa Peng, Huili Shao, Xuechao Hu, Yaopeng Zhang*, The Development of Fibers That Mimic the Core–Sheath and Spindle-Knot Morphology of Artificial Silk Using Microfluidic Devices, Macromol. Mater. Eng., 2017, 302, 1700102.
    3. Qingfa Peng, Huili Shao, Xuechao Hu, Yaopeg Zhang*, Microfluidic Dry-spinning and Characterization of Regenerated Silk Fibroin Fibers, J. Vis. Exp. (127), e56271, doi:10.3791/56271 (2017).
    4. Yatao Liu, Lixin Yin, Huirong Zhao, Guangkun Song, Fangming Tang, Lili Wang, Huili Shao, Yaopeng Zhang*, Strain-induced structural evolution during drawing of poly(ethylene terephthalate) fiber at different temperatures by in situ synchrotron SAXS and WAXD, Polymer, 2017, 119, 185-194.
    5. Jian Chen#, Ao Zhuang#, Huili Shao, Xuechao Hu and Yaopeng Zhang*, Robust Silk Fibroin/Bacterial Cellulose Nanoribbon Composite Scaffolds with Radial Lamellae and Intercalation Structure for Bone Regeneration, J. Mater. Chem. B, 2017, 5(20), 3640 – 3650
    6. Lijuan Xu#, Shufang Wang#, Xiang Sui, Yu Wang, Yinan Su, Li Huang, Yunwei Zhang, Zheng Chen, Qianqian Chen, Haitao Du, Yaopeng Zhang*, Li Yan*, Mesenchymal Stem Cell-Seeded Regenerated Silk Fibroin Complex Matrices for Liver Regeneration in an Animal Model of Acute Liver Failure, ACS Appl. Mater. Interfaces, 2017,9,14716-14723
    7. Chao Zhang, Huili Shao, Xuechao Hu, Yaopeng Zhang*, Effect of Draw Ratio on the Microstructure of Silk Fibroin/ Graphene Oxide Hybrid Fibers, Materials Science Forum, 2017, 898, 2214-2223
    8. Dan Jiang, Jianwen Huang, Huili Shao, Xuechao Hu, Lujie Song, Yaopeng Zhang*, Characterization of bladder acellular matrix hydrogel with inherent bioactive factors, Mat. Sci. Eng. C-Mater., 2017, 77, 184-189
    9. Chao Zhang(Co-first author),# Yaopeng Zhang(Co-first author),#,* Jie Luo, Jingru Shi, Huili Shao, Xuechao Hu, Microstructural evolution of regenerated silk fibroin/graphene oxide hybrid fibers under tensile deformation, RSC Adv., 2017, 7, 3108-3116
    10. Qingfa Peng#, Yaopeng Zhang#*, Li Lu, Huili Shao, Kankan Qin, Xuechao Hu, Xiaoxia Xia*, Recombinant spider silk from aqueous solutions via a bio-inspired micro?uidic chip, Sci. Rep. 2016, 6, 36473;doi: 10.1038/srep36473
    11. Yatao Liu, Lixin Yin, Huirong Zhao, Guangkun Song, Fangming Tang, Lili Wang, Huili Shao, Yaopeng Zhang*, Lamellar and fibrillar structure evolution of poly(ethylene terephthalate) fiber in thermal annealing, Polymer, 2016,105, 157-166.
    12. Yaopeng Zhang(Co-first author),#,*, Jianwen Huang(Co-first author),#, Li Huang, Qiangqiang Liu, Huili Shao, Xuechao Hu, Lujie Song*, Silk Fibroin-Based Scaffolds with Controlled Delivery Order of VEGF and BDNF for Cavernous Nerve Regeneration, ACS Biomater. Sci. Eng., 2016, 2 (11), 2018–2025. DOI: 10.1021/acsbiomaterials.6b00436
    13. C. Zhang#, Y. Zhang#,*, H. Shao, X. Hu, Hybrid silk fibers dry-spun from regenerated silk fibroin/graphene oxide aqueous solutions, ACS Appl. Mater. Inter., 2016, 8(5),3349-3358.
    14. Y. Sun, Y. Zhang*, J. Liu*, F. Nie*, Integrated microfluidic device for the spherical hydrogel pH sensor fabrication, RSC Adv., 2016, 6, 11204-11210.
    15. Q. Liu#, J. Huang#, H. Shao, L. Song*, Y. Zhang*, Dual-factor loaded functional silk fibroin scaffolds for peripheral nerve regeneration with the aid of neovascularization, RSC Adv., 2016, 6, 7683-7691.
    16. J. Huang, Y. Xu ,Z. Li, S. Murphy, W. Zhao, X. Zhang, Q. Liu, W. Zhu, J. Yoo, A. Atala, Q. Fu, Y. Zhang*, L. Song*, Tissue Performance of Bladder following Stretched Electrospun Silk Fibroin Matrix and Bladder Acellular Matrix implantation in a Rabbit Model, J. Biomed. Mater. Res. A, 2016,104(1),9-16
    17. L. Cai, H. Shao, X. Hu, Y. Zhang*, Reinforced and ultraviolet resistant silks from silkworms fed with titanium dioxide nanoparticles, ACS Sustain. Chem. Eng., 2015, 3 (10), 2551–2557
    18. Y. Liu, L. Yin, H. Zhao, G. Song, F. Tang, L. Wang, H. Shao, Y. Zhang*, Insights into Process-structure-property Relationships of Poly(ethylene terephthalate) Industrial Yarns by Synchrotron Radiation WAXD and SAXS, J. Appl. Polym. Sci. 2015, 132(36), 42512
    19. Y. Jin, Y. Hang, Q. Peng, Y. Zhang*, H. Shao*, X. Hu, Influence of shear on the structures and properties of regenerated silk fibroin aqueous solutions, RSC Adv., 2015, 5, 62936- 62940
    20. Z. Li, Q. Liu, H. Wang, L. Song, H. Shao, M. Xie, Y. Xu*, Y. Zhang*, Bladder Acellular Matrix Graft Reinforced Silk Fibroin Composite Scaffolds Loaded VEGF with Aligned Electrospun Fibers in Multiple Layers, ACS Biomater. Sci. Eng., 2015, 1 (4), 238–246
    21. Z. Li, L. Song, X. Huang, H. Wang, H. Shao, M. Xie, Y. Xu*, Y. Zhang*, Tough and VEGF-releasing scaffolds composed of artificial silk fibroin mats and natural acellular matrix, RSC Adv., 2015, 5(22), 16748 - 16758
    22. Q. Peng, H. Shao, X. Hu, Y. Zhang*, Role of humidity on the structures and properties of regenerated silk fibers, Prog. Nat. Sci., 2015, 25(5), 430-436
    23. H. Pan, Y. Zhang*, H. Shao, X. Hu, X. Li, F. Tian, J. Wang, Nanoconfined crystallites toughen artificial silk, J. Mater. Chem. B, 2014, 2, 1408–1414
    24. N. Jiang, X. Huang, Z. Li, L. Song, H. Wang, Y. Xu*, H. Shao, Y. Zhang*, Silk fibroin tissue engineering scaffolds with aligned electrospun fibers in multiple layers, RSC Adv., 2014, 4 (88), 47570 - 47575.
    25. J. Luo, L. Zhang, Q. Peng, M. Sun, Y. Zhang*, H. Shao, X. Hu, Tough silk fibers prepared in air using a biomimetic microfluidic chip, Int. J. Biol. Macromol., 2014, 66,319-324.
    26. M. Xie, Y. Xu*, L. Song, J. Wang, X. Lv, Y. Zhang*, Tissue-engineered buccal mucosa using silk fibroin matrices for urethral reconstruction in a canine model, J. Surg. Res., 2014,188(1),1-7.
    27. X. Huang, S. Fan, A. Altayp, Y. Zhang*, H. Shao, X. Hu, M. Xie, Y. Xu*, Tunable structures and properties of electrospun regenerated silk fibroin mats annealed in water vapor at different times and temperatures, J. Nanomater., 2014, 682563.
    28. J. Zhu*, Y. Zhang, H. Shao, X. Hu, Effects of environment parameters on sol-gel transition and dry-spinnability of regenerated silk fibroin aqueous solution, Fibers Polym., 2014, 15(3), 540-546.
    29. Y. Zhang*, H. Pan, J. Luo, L. Zhang, Z. Li, X. Huang, Y. Jin, S. Fan, Y. Hang, H. Shao, X. Hu, Artificial silk materials with enhanced mechanical properties and controllable structures. Int. J. Soc. Mater. Eng. Resour., 2014, 20(1),1-5.
    30. Y. Jin, Y. Hang, Y. Zhang, H. Shao*, X. Hu, Role of ca2+ on the structures and properties of regenerated silk fibroin aqueous solutions and fibers, Mater. Res. Innov., 2014,18,S2-115
    31. S. Fan, Y. Zhang*, H. Shao, X. Hu, Electrospun regenerated silk fibroin mats with enhanced mechanical properties, Int. J. Biol. Macromol., 2013, 56, 83-88.
    32. M. Xie, L. Song, J. Wang, S. Fan, Y. Zhang*, Y. Xu*, Evaluation of stretched electrospun silk fibroin matrices seeded with urothelial cells for urethra reconstruction,J. Surg. Res.,, 2013,184(2):774-81.
    33. Y. Jin, Y. Hang, J. Luo, Y. Zhang, H. Shao*, X. Hu, In vitro studies on the structure and properties of silk fibroin aqueous solutions in silkworm,Int. J. Biol. Macromol., 2013, 62, 162–166
    34. Y. Jin, Y Zhang, Y. Hang, H. Shao*, X. Hu, A simple process for dry spinning of regenerated silk fibroin aqueous solution, J. Mater. Res., 2013, 28(20), 2897-2902.
    35. H. Pan, Y. Zhang*, Y. Hang, H. Shao, X. Hu, Y. Xu*, C. Feng, Significantly reinforced composite fibers electrospun from silk fibroin/carbon nanotube aqueous solutions, Biomacromolecules, 2012, 13 (9), 2859–2867
    36. M. Sun, Y. Zhang*, Y. Zhao, H. Shao, X. Hu, The structure-property relationships of artificial silk fabricated by dry-spinning process, J. Mater. Chem., 2012, 22 (35), 18372 – 18379.
    37. J. Luo, Y. Zhang*, Y. Huang, H. Shao, X. Hu, A bio-inspired microfluidic concentrator for regenerated silk fibroin solution, Sensor. Actuat. B: Chem., 2012, 162(1), 435-440.
    38. W. Wei, Y. Zhang*, Y. Zhao, H. Shao, X. Hu, Studies on the post-treatment of the dry-spun fibers from regenerated silk fibroin solution: Post-treatment agent and method, Mater. Design, 2012, 36, 816-822.
    39. Y. Hang, Y. Zhang, Y. Jin, H. Shao*, X. Hu, Preparation of regenerated silk fibroin/silk sericin fibers by coaxial electrospinning, Int. J. Biol. Macromol., 2012,51(5),980-986
    40. W. Wei, Y. Zhang*, Y. Zhao, J. Luo, H. Shao, X. Hu, Bio-inspired capillary dry spinning of regenerated silk fibroin aqueous solution, Mat. Sci. Eng. C-Mater, 2011, 31(7), 1602–1608
    41. W. Wei, Y. Zhang*, H. Shao, X. Hu, Posttreatment of the dry-spun fibers obtained from regenerated silk fibroin aqueous solution in ethanol aqueous solution, J. Mater. Res., 2011, 26(9), 1100-1106.
    42. Y. Hang, Y. Zhang, Y. Jin, H. Shao*, X. Hu, Preparation and characterization of electrospun silk fibroin/sericin blend fibers, J. Mater. Res., 2011, 26(23), 2931-2937.
    43. Y. Zhang, S. Kato*, T. Anazawa, Vacuum membrane distillation by microchip with temperature gradient, Lab Chip, 2010,10(7),899-908
    44. Y. Zhang, H. Yang, H. Shao*, X. Hu, Antheraea pernyi silk fiber: a potential resource for artificially biospinning spider dragline silk, J. Biomed. Biotechnol., 2010(2010), 683962,1-8.
    45. G. Yang, Y. Zhang, M. Wei, H. Shao*, X.Hu, Influence of gamma-ray radiation on the structure and properties of paper grade bamboo pulp, Carbohyd. Polym., 2010,81(1),114-119
    46. W. Wei, Y. Zhang*, H. Shao, X. Hu, Determination of molecular weight of silk fibroin by non-gel sieving capillary electrophoresis, J. AOAC Int., 2010, 94(3), 1143-1147.
    47. Y. Zhang, S. Kato*, T. Anazawa, Vacuum membrane distillation on a microfluidic chip, Chem. Commun., 2009, 2750-2752.
    48. G. Yang, Y. Zhang, H. Shao*, X. Hu, A comparative study of bamboo Lyocell fiber and other regenerated cellulose fibers, Holzforschung, 2009, 63, 18-22.
    49. Y. Zhang, S. Kato, T. Anazawa*, A microchannel concentrator controlled by integral thermoresponsive valves, Sensor. Actuat. B:Chem., 2008,129(1), 481-486.
    50. J. Zhu, Y. Zhang, H. Shao*, X. Hu, Electrospinning and rheology of regenerated Bombyx mori silk fibroin aqueous solutions: The effects of pH and concentration, Polymer, 2008, 48, 2882-2885.
    51. Y. Zhang, S. Kato, T. Anazawa, A flap-type hydrogel actuator with fast responses to temperature, Smart Mater. Struct., 2007,16(6), 2175-2182.

  • 著作:
  • 1. 章潭莉,张耀鹏,邵惠丽. 聚乙烯醇纤维. 沈新元主编,化学纤维手册. 北京:中国纺织出版社,2008.9,第12章,783-834 (ISBN 978-7-5064-4820-8)
    2. 张耀鹏,邵惠丽,胡学超.绿色纤维和生态纺织新技术(第7章 仿蜘蛛丝纤维及纺织品).北京:化学工业出版社,2005, 2149-184

  • 授权的专利:
  • 1.一种仿蚕丝组成和结构的再生丝蛋白纤维及其制备方法,ZL201110142134.3
    2.一种再生蚕丝蛋白纤维的制备方法,ZL201110078228.9
    3.一种再生丝素蛋白纤维的制备方法及其制品,ZL201110007232.6
    4.具有皮芯结构的再生蚕丝蛋白纤维的制备方法,ZL200910200568.7
    5.干纺制备再生蚕丝纤维的方法,ZL200910198792.7
    6.再生蚕丝蛋白超细纤维的制造方法,ZL200410054334.3
    7.一种含血管内皮生长因子的再生丝素蛋白组织工程支架及其制备方法,ZL201110424912.8
    8.一种用于尿道重建的组织工程支架及其制备方法,ZL201110425306.8
    9.一种微流体芯片及其纺丝技术,ZL201110007230.7
    10.一种再生蚕丝的连续干法纺丝装置,ZL201220394297.0
    11.一种金属氧化物纳米粒子增强增韧的再生蚕丝纤维及其制备方法,专利号201210402478.8


  • 近几年承担的科研项目:
  • 1.国家自然科学基金,21674018,导电丝素蛋白仿生组织工程支架中的微环境动态调控及神经再生,2017.1-2020.12 负责
    2. 国家自然科学基金,基于多功能微流体芯片的动物丝蛋白的聚集态结构调控及仿生纺丝,21274018,2013.1-2016.12,负责
    2.上海市青年科技启明星计划,生物启发的多功能集成微流体芯片的制备及纺丝,12QA1400100,2012.9-2014.8,负责
    3.国家自然科学基金,缓释VEGF的丝素蛋白纳米纤维修饰BAMG构建长段组织工程尿道,81170641,2012.1-2015.12(第二单位负责人)
    4.上海市教委科研创新重点项目,利用同步辐射技术研究丝素蛋白的聚集过程,12ZZ065,2012.1-2014.12,负责
    5.国家自然科学基金,50803011,微流体仿生通道中流动态再生丝素蛋白水溶液的液晶态结构转变,2009.1-2011.12,负责
    6. 教育部留学回国基金,再生丝素蛋白水溶液的仿生纺丝研究,教外司留[2008]890 号,2008.1-2010.12,负责
    7.上海市教育发展基金会晨光计划,2007CG44,再生丝素蛋白水溶液仿生纺丝过程中的基础理论研究,2007.11-2009.12 ,负责
    8. 上海市科委浦江人才计划,09PJ1400700,动物丝蛋白纺丝液组成与结构的动态仿生调控,2009.7.31-2011.7.30,负责
    9.中央高校基本科研业务费,模拟蚕丝组成和结构的人造蚕丝的制备与研究(项目编号2009D-02),2010.1-2010.12,负责
    10. 中央高校基本科研业务费,利用后处理制备高性能人造动物丝,(项目编号2011D10604),2011.1-2013.12,负责
    DIRECTED FUNDING & MAJOR RESEARCH PROJECTS (Since 2007)
    1. National Natural Science Foundation of China, No. 21274018, The aggregation regulation and spinning of animal silk protein using a bio-inspired multifunctional microfluidic chip, (PI), Jan. 2013.1-Dec. 2016
    2. Shanghai Rising - Star Program, No. 12QA1400100, Fabrication of a bio-inspired and integrated microfluidic spinning chip, (PI), Sep. 2012-Aug. 2014
    3. National Natural Science Foundation of China, No. 81170641, Tissue-engineered long-segment urethral reconstruction using VEGF seeded on a composite material of BAMG and silk fibroin nano-fibers, Jan. 2012- Dec. 2015 (CPI, cooperated with Shanghai Jiao Tong University Affiliated Sixth People’s Hospital.)
    4. The Innovation Program of Shanghai Municipal Education Commission, No. 12ZZ065, Studies on the aggregation process of silk fibroin using synchrotron radiation, (PI), Jan. 2012-Dec.2014
    5. The Fundamental Research Funds for the Central Universities, No. 2011D10604, Preparation of a high-performance artificial silk by post-treatment, (PI), Jan. 2011- Dec. 2013
    6. The Fundamental Research Funds for the Central Universities, No. 2009D-02, Preparation and studies of an artificial silk by biomimicking the composition and structure of silkworm silk, (PI), Jan. 2010-Dec. 2010
    7. National Natural Science Foundation of China, No.50803011, Liquid crystalline transition of silk fibroin aqueous solution flowing in a biomimetic microfluidic channel, (PI), Jan.2009- Dec.2011
    8. Shanghai Pujiang Program, No. 09PJ1400700, Dynamic adjustments of the components and structures of a spinning dope to produce animal silks, (PI), Jul. 2009-Jul. 2011
    9.The Scientific Research Foundation for the Returned Overseas Chinese Scholars, State Education Ministry, No. Jiaowaisiliu[2008]890, Studies on the biomimetic spinning of regenerated silk fibroin solution , (PI), Jan. 2008- Dec. 2010
    10. Shanghai Educational Development Foundation, No.2007CG44, Basic studies on the bio-inspired spinning of regenerated silk fibroin solution, (PI), Nov. 2007-Dec. 2009


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    办公室地址:材料学院C568
  • Email:zyp@dhu.edu.cn
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