張耀鵬

張耀鵬研究員、博士，博導，日本川村理化學研究所博士後，日本秋田大學訪問學者，是東華大學優秀青年教師後備人選、上海市晨光學者、上海市浦江人才、上海市青年科技啟明星獲得者。2014年入選東華大學首批勵志計畫（A類）。2002起年先後以骨幹成員承擔了有關蜘蛛絲和玉米纖維的國家863項目及上海市科委科技攻關項目。成功開發了用工業化聚酯紡絲裝置加工玉米纖維的技術，2007年被評為中國紡織工業協會科學技術二等獎。2004年至2007年赴日留學期間，提出了舌片型微流控閥的概念，成功製備了載玻片大小的微精餾晶片，得到了國際同行的高度評價，相關成果發表在Lab on a Chip（影響因子5.697）, Chemical Communications（影響因子6.378）等國際重要學術期刊。2007年回國後，將微流體技術與仿生紡絲相結合，建立了新的微流體紡絲研究方向。陸續主持完成了國家自然科學基金、教育部留學回國基金、上海市教育發展基金會晨光計畫、上海市科委浦江人才計畫等10餘項課題的研究。此外，還參與完成了高等學校博士學科點專項科研基金課題1項。現主持國家自然科學基金、上海市教委科研創新重點項目、上海市青年科技啟明星計畫等課題4項，作為第二單位負責人承擔國家自然科學基金1項，參與國家自然科學基金等課題2項。率先以水為溶劑，通過靜電紡絲製得絲素蛋白納米纖維氈，並套用於組織工程尿道修復研究；開發了動物絲蛋白的乾法及微流體紡絲技術，製備了力學性能超過天然蠶絲的高性能人造動物絲。迄今在Biomacromolecules，J. Mater. Chem.等期刊發表SCI論文37篇，申請專利21項（其中授權中國專利11項，公開日本專利4項），參編專著2部。所指導學生中多人被評為上海市優秀畢業研究生、上海市優秀畢業生、東華大學優秀畢業生等。

1994-1998 湖北工業大學，高分子材料專業，學士
1998-2002 東華大學，材料學專業，工學博士
2004-2007日本川村理化學研究所，博士後
2010 日本秋田大學，訪問學者

中國材料研究學會高分子材料與工程分會副秘書長

1、高性能人造動物絲仿生製備過程中的凝聚態結構調控
2、複雜微流體晶片製備技術及微流體仿生紡絲
3、基於絲素蛋白的生物醫用材料

2013年，高等學校科學研究優秀成果獎科技進步二等獎,運用組織工程技術行下尿路重建的實驗研究與臨床套用（3/10）；
2013年，上海醫學科技獎三等獎,運用組織工程技術行下尿路重建的實驗研究與臨床套用(3/5) ；
2012年，上海市青年科技啟明星（A類）；
2009年，上海市浦江人才；
2007年，中國紡織工業協會科學技術二等獎，聚乳酸紡絲及其產業化開發（9/11）；
2007年，國家精品課程，高分子化學（9/15）；
2007年，上海市晨光學者

高聚物合成工藝學（本科三年級）
生物醫用材料（留學生）

[1] Yaopeng Zhang*, Hui Pan, Jie Luo, Lele Zhang, Zhaobo Li, Xiangyu Huang, Yuan Jin, Suna Fan, Yichun Hang, Huili Shao, Xuechao Hu, Artificial Silk Materials with Enhanced Mechanical Properties and Controllable Structures. Int. J. Soc. Mater. Eng. Resour., 2014, 20(1),1-5.(Invited review)
[2] Yuan Jin, Yichun Hang, Yaopeng Zhang,Huili Shao*, Xuechao Hu, Role of Ca2+ on the structures and properties of regenerated silk fibroin aqueous solutions and fibers, Mater. Res. Innov., 2014,18,S2-115.
[3] Xiangyu Huang, Suna Fan, Alhadi Ibrahim Mohammed Altayp, Yaopeng Zhang*, Huili Shao, Xuechao Hu, Minkai Xie, Yuemin Xu*, Tunable structures and properties of electrospun regenerated silk fibroin mats annealed in water vapor at different times and temperatures, J. Nanomat., Article no. 682563, 1-7, 2014.
[4] Jie Luo, Lele Zhang, Qingfa Peng, Mengjie Sun, Yaopeng Zhang*, Huili Shao, Xuechao Hu , Tough silk fibers prepared in air using a biomimetic microfluidic chip, Int. J. Biol. Macromol., 66,319-324, 2014.(IF3.096)
[5] Minkai Xie, Lujie Song, Jihong Wang, Xiangguo Lv, Yaopeng Zhang*, Yuemin Xu*, Tissue-engineered buccal mucosa using silk fibroin matrices for urethral reconstruction in a canine model, J. Surg. Res.,188(1),1-7,2014.
[6] Hui Pan, Yaopeng Zhang*, Huili Shao, Xuechao Hu, Xiuhong Li, Feng Tian, Jie Wang, Nanoconfined crystallites toughen artificial silk, J. Mater. Chem. B, 2, 1408-1414 , 2014.
[7] Suna Fan, Yaopeng Zhang*, Huili Shao, Xuechao Hu, Electrospun regenerated silk fibroin mats with enhanced mechanical properties, Int. J. Biol. Macromol., 56, 83-88, 2013.
[8] Yuan Jin, Yichun Hang, Jie Luo, Yaopeng Zhang, Huili Shao*, Xuechao Hu, In vitro studies on the structure and properties of silk fibroin aqueous solutions in silkworm, Int. J. Biol. Macromol., 62, 162–166, 2013. (IF3.096)
[9] Minkai Xie, Lujie Song, Jihong Wang, Suna Fan, Yaopeng Zhang*, Yuemin Xu*, Evaluation of stretched electrospun silk fibroin matrices seeded with urothelial cells for urethra reconstruction, J. Surg. Res.,184(2):774-81, 2013.
[10] Yuan Jin, Yaopeng Zhang, Yichun Hang, Huili Shao*, Xuechao Hu, A simple process for dry spinning of regenerated silk fibroin aqueous solution, J. Mater. Res., 28(20), 2897-2902, 2013.
[11] Mengjie Sun, Yaopeng Zhang*, Yingmei Zhao, Huili Shao, Xuechao Hu, The structure-property relationships of artificial silk fabricated by dry-spinning process, J. Mater. Chem., 22 (35), 18372 - 18379, 2012. (IF 6.626)
[12] Hui Pan, Yaopeng Zhang*, Yichun Hang, Huili Shao, Xuechao Hu, Yuemin Xu*, Chao Feng, Significantly reinforced composite fibers electrospun from silk fibroin/carbon nanotube aqueous solutions, Biomacromolecules, 13 (9), 2859–2867, 2012. (IF 5.788)
[13] Yichun Hang, Yaopeng Zhang, Yuan Jin, Huili Shao*, Xuechao Hu, Preparation of regenerated silk fibroin/silk sericin fibers by coaxial electrospinning, Int. J. Biol. Macromol.,51(5),980-986, 2012. (IF3.096)
[14] Jie Luo, Yaopeng Zhang*, Yan Huang, Huili Shao, Xuechao Hu, A bio-inspired microfluidic concentrator for regenerated silk fibroin solution, Sensor. Actuat. B-Chem., 162(1), 435-440, 2012.(IF 3.84)
[15] Wei Wei, Yaopeng Zhang*, Yingmei Zhao, Huili Shao, Xuechao Hu, Studies on the post-treatment of the dry-spun fibers from regenerated silk fibroin solution: Post-treatment agent and method, Mater. Design, 36, 816-822, 2012.(3.171)
[16] Wei Wei, Yaopeng Zhang*, Yingmei Zhao, Jie Luo, Huili Shao, Xuechao Hu, Bio-inspired capillary dry spinning of regenerated silk fibroin aqueous solution, Mat. Sci. Eng. C-Mater., 31(7), 1602-1608 , 2011.
[17] Wei Wei, Yaopeng Zhang*, Huili Shao, Xuechao Hu, Posttreatment of the dry-spun fibers obtained from regenerated silk fibroin aqueous solution in ethanol aqueous solution, J. Mater. Res., 26(9), 1100-1106, 2011.
[18] Yichun Hang, Yaopeng Zhang, Yuan Jin, Huili Shao*, Xuechao Hu, Preparation and characterization of electrospun silk fibroin/sericin blend fibers, J. Mater. Res.,26(23),2931-2937,2011.
[19] Yaopeng Zhang, Shinji Kato, Takanori Anazawa, Vacuum membrane distillation by microchip with temperature gradient, Lab Chip, 2010,10(7),899-908 (IF:5.748).
[20] Yaopeng Zhang, Hongxia Yang, Huili Shao*, Xuechao Hu, Antheraea pernyi Silk Fiber: a Potential Resource for Artificially Biospinning Spider Dragline Silk, J. Biomed. Biotech., (2010), 683962,1-8, 2010.
[21] Wei Wei, Yaopeng Zhang*, Huili Shao, Xuechao Hu, Determination of Molecular Weight of Silk Fibroin by Non-Gel Sieving Capillary Electrophoresis, J. AOAC Int.,94(3),1143-1147, 2010.
[22] Gesheng. Yang, Yaopeng Zhang, Mengyuan Wei, Huili Shao, Xuechao Hu, Influence of gamma-ray radiation on the structure and properties of paper grade bamboo pulp, Carbohydrate Polymers, 2010，81(1),114-119 (IF:3.916)
[23] Yaopeng Zhang, Shinji Kato, Takanori Anazawa, Vacuum membrane distillation on a microfluidic chip, Chemical Communications, 2009, 2750-2752. (IF: 6.718)
[24] Gesheng Yang, Yaopeng Zhang, Huili Shao, Xuechao Hu, A comparative study of bamboo Lyocell fiber and other regenerated cellulose fibers, Holzforschung, 2009, 63, 18-22.
[25] Yaopeng Zhang, Shinji Kato, Takanori Anazawa, A microchannel concentrator controlled by integral thermoresponsive valves, Sensors and Actuators B:Chemical, 2008,129(1), 481-486. (IF: 3.84)
[26] Jingxin Zhu, Yaopeng Zhang, Huili Shao*, Xuechao Hu, Electrospinning and rheology of regenerated Bombyx mori silk fibroin aqueous solutions: The effects of pH and concentration, Polymer, 48, 2882-2885, 2008.(IF3.766)

1. 章潭莉，張耀鵬，邵惠麗. 聚乙烯醇纖維. 沈新元主編，化學纖維手冊. 北京：中國紡織出版社，2008.9，第12章，783-834 （ISBN 978-7-5064-4820-8）
2. 張耀鵬，邵惠麗，胡學超．綠色纖維和生態紡織新技術（第7章 仿蜘蛛絲纖維及紡織品）．北京：化學工業出版社，2005, 2149-184

1.國家自然科學基金，基於多功能微流體晶片的動物絲蛋白的聚集態結構調控及仿生紡絲，21274018，2013.1-2016.12，負責
2.上海市青年科技啟明星計畫，生物啟發的多功能集成微流體晶片的製備及紡絲，12QA1400100，2012.9-2014.8,負責
3.國家自然科學基金，緩釋VEGF的絲素蛋白納米纖維修飾BAMG構建長段組織工程尿道，81170641，2012.1-2015.12（第二單位負責人）
4.上海市教委科研創新重點項目，利用同步輻射技術研究絲素蛋白的聚集過程，12ZZ065，2012.1-2014.12，負責
5.國家自然科學基金，50803011，微流體仿生通道中流動態再生絲素蛋白水溶液的液晶態結構轉變，2009.1-2011.12，負責
6. 教育部留學回國基金，再生絲素蛋白水溶液的仿生紡絲研究，教外司留[2008]890 號，2008.1-2010.12，負責
7.上海市教育發展基金會晨光計畫，2007CG44，再生絲素蛋白水溶液仿生紡絲過程中的基礎理論研究，2007.11-2009.12 ，負責
8. 上海市科委浦江人才計畫，09PJ1400700，動物絲蛋白紡絲液組成與結構的動態仿生調控，2009.7.31-2011.7.30，負責
9.中央高校基本科研業務費，模擬蠶絲組成和結構的人造蠶絲的製備與研究（項目編號2009D-02），2010.1-2010.12,負責
10. 中央高校基本科研業務費，利用後處理製備高性能人造動物絲，（項目編號2011D10604），2011.1-2013.12，負責
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