个人信息
个人简介

个人简介

2015年8月-至今:       苏州大学心血管病研究所 副教授  硕士研究生导师

2012年1月至2014年2月:  美国 North Carolina State University 博士后助理研究员

2008年月至2011年6月:  武汉理工大学材料科学与工程学院 工学博士

2009年10月至2011年6月:中国科学院苏州纳米技术与纳米仿生研究所   访问学生

2005年9月至2008年6月:  武汉理工大学材料科学与工程学院 工学硕士

2006年10月至2007年9月:加拿大McMaster University                                 访问学者

2001年9月至2005年6月:  武汉理工大学化学工程学院 工学学士

基金


  • 国家自然科学基金青年项目(21604059,22万,2017年1月到2019年12月)

  • 江苏省自然科学基金青年基金项目(BK20160321,20万,2016年7月到2019年6月)

  • 苏州市民生科技项目(sys2018026, 5万,2018年7月到2021年6月)

  • 江苏省高校自然科学研究面上项目(16KJB430029,3万,2016年9月到2018年8月)

  • 江苏省临床医学研究中心(30万,2016年3月到2018年6月)

  • 苏州大学科研启动经费(20万,2015年8月)




google学术档案)。研究期间,曾担任著名期刊Biomaterial, Biomacromolecules, ACS Appl. Mater.Interfaces, Colloids Surf., B的审稿人。
2. 在博士和博士后研究期间作为项目组主要成员参与包括中国国家自然科学基金委重大国际合作项目、面上项目,美国国家科学基金(NSF)等多项科研基金项目。
3. 入选2016年度苏州市高等院校、科研院所紧缺高层次人才引进资助计划


研究领域
  • 具有生物功能性表面的设计与应用

  • 纳米纤维素在生物医用领域的应用

  • 免标记型生物传感器

  • 可注射型水凝胶用于心肌梗死修复

Education
  • Associate Professor, Institute for Cardiovascular Science of Soochow University. (08/2015-now)

  • Postdoctoral Fellow, North Carolina State University, USA (01/2012-02/2014, Advisor: Dr.Orlando J. Rojas)

  • Ph.D of Engineering, Wuhan University of Technology, (09/2008-06/2011, Advisor:Dr. Hong Chen)

  • Visiting Student, Suzhou Institute of Nano-Tech and Nano-Bionics, Chinese Academy of Sciences (10/2009-06/2011, Advisor: Dr. Hongwei Ma)

  • Master of Engineering, Wuhan University of Technology (09/2005-06/2008, Advisor: Dr.Hong Chen

  • Visiting Scholar, McMaster University, Canada (10/2006-09/2007, Advisor: Dr. John L.Brash

  • Bachelor of Engineering, Wuhan University of Technology (09/2001-06/2005)

Funding
  • The National Natural Science Foundation of China (21604059, ¥220,000 01/2017 through 12/2019)

  • The Natural Science Foundation of Jiangsu Province (BK20160321, ¥200,000 07/2016 through 06/2019)

  • The Natural Science Foundation of the Jiangsu Higher Education Institutions of China (16KJB430029, ¥30,000 09/2016 through 08/2018)

  • Jiangsu Clinical Research Center for Cardiovascular Surgery (¥300,000 03/2016 through 06/2018)

  • Startup Funding from Soochow University (¥200,000 08/2015)


基本信息
头像




张燕霞

职称:副教授

院部/部门:苏州大学心血管病研究所

学历:

学位:

毕业学校:

毕业专业:

联系方式

通讯地址:

邮政编码:

电子邮箱:zhangyanxia@suda.edu.cn

联系电话:18012798116

传真号码:

办公地点:苏州大学心血管病研究所

科学研究







科研团队

属于沈振亚教授科研团队一员

论文

详细论文参见google学术档案

27) Shen, H,Cui,G, Li, Y, Ye, W, Sun, Y, Zhang, Z, Li, J, Xu, G, Zeng, X, Zhang, Y,Zhang,W, Huang, Z, Chen, W, Shen, Z., Follistatin-like 1 protects mesenchymalstemcells from hypoxic damage and enhances their therapeutic efficacy in amousemyocardial infarction model. Stem Cell Res Ther 2019,10 (1),17.

26) Xiao Y#, ZhangY#, Chen Y#,Li J#, Zhang Z, Sun Y, ShenH, Zhao Z, Huang Z, Zhang W, Chen W, ShenZ., Inhibition of microRNA-9-5pProtects against Cardiac Remodeling followingMyocardial Infarction inMice. Hum Gene Ther., 2018 Aug 13.doi:10.1089/hum.2018.059.


25) Tao, C.#, Zhang, Y.#, Li, B., Chen, L.* Hierarchical micro/submicrometer-scale structured scaffolds prepared via coaxial electrospinning for bone regeneration. J.Mater. Chem. B, 2017, 5, 9219-9228.
24) Sun, J.#, Zhang, Y.#, Li, B., Gu, Y.*, Chen, L.* Controlled release of BMP-2 from a collagen-mimetic peptide-modified silk fibroin-nanohydroxyapatite scaffold for bone regeneration. J.Mater. Chem. B, 2017, 5, 8770-8779.
23) Wang, Q.#, Zhang, Y.#, Li, B., Chen, L.*Sequential delivery of low doses of BMP-2 and VEGF in a silk fibroin-nanohydroxyapatite scaffold for vascularized bone regeneration. J.Mater. Chem. B, 2017, 5, 6963-6972.
22) Tayeb, A. H., Hubbe, M. A., Zhang, Y., Rojas, O. J.* Effect of Lipoxygenase Oxidation on Surface Deposition of Unsaturated Fatty Acids. Langmuir, 2017,  33 (18), 4559-4566
21) Xu, Y.#, Cui W.#, Zhang, Y.#, Zhou, P., Gu, Y., Shen, X., Li, B., Chen, L.* Hierarchical micro/nano-fibrous bioscaffolds for structural tissue regeneration. Advanced Healthcare Materials. 2017, 6(13), 1601457
20) Zhang, Y.*; Rojas, O. J.* Immunosensors for C-reactive protein based on ultrathin films of carboxylated cellulose nanofibrils. Biomacromolecules 2017, 18 (2), 526–534
19) Shen, X.#, Zhang, Y.#, Gu, Y., Xu, Y., Liu, Y, Li, B., Chen, L.* Sequential and sustained release of SDF-1 and BMP-2 from silk fibroin-nanohydroxyapatite scaffold for the enhancement of bone regeneration. Biomaterials, 2016, 106, 205-216.
18) B.B. Langdon, R.B. Mirhossaini, J.N. Mabry, I. Sriram, A.Lajmi, Y. Zhang, O.J. Rojas*,D.K. Schwartz, Single-molecule resolution of protein dynamics on polymericmembrane surfaces: the roles of spatial and population heterogeneity. ACSAppl. Mater. Interfaces, 2015. 7: 3607-3617.
17) H. Bai, J. Xu, Y. Zhang, X. Liu, O.J. Rojas*, Dynamics of cyclodimerization andviscoelasticity of photo‐crosslinkable PVA. J. Polym. Sci., B: Polym. Phys., 2015. 53: 345-355.
16) Y. Zhang, T. Nypel?*, C. Salas,J. Arboleda, I.C. Hoeger, O.J. Rojas*, Cellulose nanofibrils: from strongmaterials to bioactive surfaces. J. Renew. Mater., 2013. 1:195-211. (Review)
15) Y. Zhang*, R.G. Carbonell, O.J.Rojas*, Bioactive cellulose nanofibrils for specific human IgG binding.Biomacromolecules, 2013. 14: 4161-4168.
14) Y. Zhang*, N. Islam, R.G.Carbonell, O.J. Rojas*, Specificity and regenerability of short Peptide ligandssupported on polymer layers for immunoglobulin g binding and detection. ACSAppl. Mater. Interfaces, 2013. 5: 8030-8037.
13) Y. Zhang*, N. Islam, R.G.Carbonell, O.J. Rojas*, Specific binding of immunoglobulin G with bioactiveshort peptides supported on antifouling copolymer layers for detection inquartz crystal microgravimetry and surface plasmon resonance. Anal. Chem., 2013. 85: 1106-1113.
12) Y. Zhang, B. Lv, Z. Lu, J. He,S. Zhang, H. Chen*, H. Ma*, Predicting Au-S bond breakage from the swellingbehavior of surface tethered polyelectrolytes. Soft Matter, 2011.7: 11496-11500.
11) Y. Zhang, J. He, Y. Zhu, H.Chen, H. Ma*, Directly observed Au-S bond breakage due to swelling of theanchored polyelectrolyte. Chem. Commun., 2011. 47: 1190-1192.
10) Q. Yu, X. Li, Y. Zhang, L. Yuan, T. Zhao, H. Chen*, The synergistic effects ofstimuli-responsive polymers with nano-structured surfaces: wettability andprotein adsorption. RSC Adv., 2011. 1: 262-269.
9) Q. Yu, Y. Zhang, H. Wang, J.L. Brash, H. Chen*, Anti-fouling bioactive surfaces. ActaBiomater., 2011. 7: 1550-1557. (Review)
8 Y. Zhang, Q. Yu, H. Huang*, F. Zhou, Z. Wu, L. Yuan, D. Li, H. Chen*, A surface decorated with diblockcopolymer for biomolecular conjugation. Soft Matter, 2010. 6:2616–2618.
7) Q. Yu, H. Chen*, Y. Zhang, L. Yuan, T. Zhao, X. Li, H. Wang, pH-reversible, high-capacitybinding of proteins on a substrate with nanostructure. Langmuir, 2010.26: 17812-17815.
6) Q. Yu, Y. Zhang, H. Chen*, F. Zhou, Z. Wu, H. Huang, J.L. Brash, Protein adsorption and celladhesion/detachment behavior on dual-responsive silicon surfaces modified withpoly(N-isopropylacrylamide)-block-polystyrene copolymer. Langmuir, 2010.26: 8582-8588.
5) Q. Yu, Y. Zhang, H. Chen*, Z. Wu, H. Huang, C. Cheng, Protein adsorption onpoly(N-isopropylacrylamide)-modified silicon surfaces: Effects of grafted layerthickness and protein size. Colloids Surf., B, 2010. 76: 468-474.
4) Z. Wu, H. Chen*, X. Liu, Y. Zhang, D. Li, H. Huang, Protein adsorption onpoly(N-vinylpyrrolidone)-modified silicon surfaces prepared bysurface-initiated atom transfer radical polymerization. Langmuir, 2009.25: 2900-2906.
3) H. Chen*, Y. Zhang, D. Li, X. Hu, L. Wang, W.G. McClung, J.L. Brash, Surfaces havingdual fibrinolytic and protein resistant properties by immobilization of lysineon polyurethane through a PEG spacer. J. Biomed. Mater. Res., Part A, 2009.90: 940-946.
2) H. Chen*, L. Wang, Y. Zhang, D. Li, W.G. McClung, M.A. Brook, H. Sheardown, J.L. Brash,Fibrinolytic poly(dimethyl siloxane) surfaces. Macromol. Biosci., 2008.8: 863-870.
1) H. Chen*, X. Hu, Y. Zhang, D. Li, Z. Wu, T. Zhang, Effect of chain density and conformationon protein adsorption at PEG-grafted polyurethane surfaces. Colloids Surf.,B, 2008. 61: 237-243


荣誉奖励
开授课程

参与由特聘教授胡士军老师主讲的《干细胞生物学》中的《干细胞组织工程》

招生信息

招收化学、材料、医学方向硕士研究生,表现优秀者可送至国外学校短期学习。欢迎报考!