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zhangwj

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[资源] 国内外知名生物材料研究组介绍【重金收集中】

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Group Name: (?о?????????????????group leader????????)
Group Leader:
Affiliation:
Research Interest:
Research Highlight:
Representative Publication: (??????5??????????)
Webpage:

??????????????????????????
Aldo Boccaccini??Imperial College????116?
Angela Belcher??Massachusetts Institute of Technology????100?
Arto Urtti??University of Helsinki????97?
Buddy Ratner??University of Washington????99?
Chad Mirkin??Northwestern University????25?
Charles M. Lieber??Harvard University????1?
Christine E. Schmidt??The University of Texas at Austin????1?
David Kaplan??Tufts University????103?
Enrique Fernandez??Technical University of Catalonia????37?
Frank Witte??Hannover Medical School????18?
Henry J. Rack??Clemson University????53?
Hongjie Dai (?????)??Stanford University????24?
Huajian Gao (?????)??Brown University????16?
Igor Zhitomirsky??McMaster University????101?
Joelle AMEDEE??Universit?? Victor Segalen Bordeaux 2????110?
John Jansen??Radboud University Nijmegen????43?
Josep A. Planell??Universitat Polit??cnica de Catalunya????38?
K de Groot??Free University????112?
Kokubo Tadashi??Chubu University????36?
Jan Feijen??University of Twente????49?
Larry L. Hench??Imperial College????111?
Laurent Sedel??Hôpital Lariboisi??re????39?
Lemaitre Jacques??Swiss Federal Institute of Technology Lausanne????35?
Ma Jan??Nanyang Technological University????27?
Min Wang(????)??The University of Hong Kong????113?
Mitsuo Niinomi??Tohoku University????55?
Molly Stevens??Imperial College????117?
Nadrian C. Seeman??New York University????50?
Paul K. Chu (????)??City University of Hong Kong????1?
Racquel Z . LeGeros??New York University????107?
Robert Langer??Massachusetts Institute of Technology????46?
Robin Wootton??University of Exeter????17?
Samuel I. Stupp??Northwestern University????98?
Shuming Nie (??????)??Emory University????22?
Song Li??University of California, Berkeley????126?
Subbu S. Venkatraman??Nanyang Technological University????26?
Xiaohu Gao (??????)??University of Washington????23?
Xuejun Wen (?????)??Clemson University????124?
Yang LENG??Hong Kong University of Science & Technology ????106?
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William Bonfield??University of Cambridge??
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????1??

Group Name:
Plasma Laboratory

Group Leader:
Paul K. Chu

Affiliation:
City University of Hong Kong

Research Interest:
Using Plasma Immersion Ion Implantation - Deposition (PIII-D) technique to synthesize thin films and modify the surface properties of materials for biomedical applications.

Research Highlight:
Significant progress has been made to develop more biocompatible artificial heart, cardiovascular, and blood vessel stent materials and catheters. Crystalline silicon wafers can be made bioactive and conducive to the growth of apatite (bone) using hydrogen plasma implantation. This is a significant development enabling better integration of biosensors and bioMEMS with human tissues. Using patent pending plasma surface modification and thermal treatment technologies, the leaching of toxic Ni from NiTi is significantly mitigated while the shape memory and super-elastic properties can be tailored and retained. These inventions have led to another pending patent on a ??gradual correction"surgical technique that obviates the need for multiple surgeries for patients with spinal deformities like scoliosis and major back injuries. Plasma-sprayed TiO2 coatings have been made bioactive for the first time using a special fabrication process involving plasma implantation, nanofabrication technology, and UV irradiation. This is a significant development as plasma-sprayed titanium dioxide coatings have always been regarded as bio-inert. The novel nano-structured TiO2 coatings support the growth of bones and the work has profound impact on artificial prostheses and orthopedic materials.

Representative Publication:
1) P. K. Chu and X. Y. Liu (Editors), Biomaterials Fabrication and Processing Handbook, CRC Press / Taylor and Francis, Boca Raton, USA (2008).
2) J. Jiang, K. F. Huo, Z. W. Wu, et al., Silicon Induced DNA Damage Pathway and Its Modulation by Titanium Plasma Immersion Ion Implantation, Biomaterials, Vol. 29, No. 5, Pages: 544-550 (2008).
3) Zhang W, Chu PK, Ji JH, et al., Plasma Surface Modification of Poly vinyl chloride for Improvement of Antibacterial Properties, Biomaterials, Vol. 27, No. 1 Pages: 44-51 (2006).
4) X. Y. Liu, P. K. Chu, and C. X. Ding, Surface Modification of Titanium, Titanium Alloys, and Related Materials for Biomedical Applications, Materials Science and Engineering: Reports, Vol. 47, No. 2-4, Pages: 49-121 (2004).
5) P. K. Chu, J. Y. Chen, L. P. Wang, et al., Plasma Surface Modification of Biomaterials, Materials Science & Engineering: Reports, Vol. 36, No. 5-6, Pages: 143-206 (2002).

Webpage
http://www.cityu.edu.hk/ap/plasma/default.htm

????2??

Group Name:
The Schmidt Lab

Group Leader:
Christine E. Schmidt

Affiliation:
The University of Texas at Austin

Research Interest:
Semiconductor-Cell Interfaces; Biomimetic Synthetic Polymers; Natural-Based Biomaterials; Mechanisms of Cell Migration; Genetic Strategies for Tissue Repair

Research Highlight:
The group are working in collaboration with scientists with different backgrouds to better understand and repair tissues in the nervous and cardiovascular systems. Most of their current research is applied to the nervous system. They analysed various biomaterials (e.g., an electrically conducting polymer) that can be used to specifically stimulate, and guide, nerves to regrow their severed axons. They also studied the mechanisms of axon extension and nerve repair so that we can better design devices to help promote regeneration. Ultimately, nerve guidance channels (conduits) could be used to aid the repair of damaged peripheral nerves, such as would be required for facial and hand reconstruction, and ultimately, could be used to aid the regeneration of damaged spinal cord. In the cardiovascular system, they have used advanced cell culture approaches and a novel biomaterial scaffold (acellular vascular tissue) in an attempt to grow a living blood vessel. This vascular graft could ultimately be used for blood vessel reconstruction procedures (e.g., coronary artery bypass surgeries).

Representative Publication:
1) Guimard, N., N. Gomez, C.E. Schmidt (2007). Conducting Polymers in Biomedical Applications. Progress in Polymer Science. 32: 876-921.
2) Gomez, N., J.Y. Lee, J.D. Nickels, C.E. Schmidt (2007). Micropatterned Polypyrrole: Combination of Electrical and Topographical Characteristics for Stimulation of Cells. Advanced Functional Materials. 17: 1645-1653.
3) Sanghvi, A.B., K.P-H. Miller, A.M. Belcher, C.E. Schmidt (2005). Biomaterials functionalization using a novel peptide that selectively binds to an electrically conducting polymer. Nature Materials. 4: 496-502.
4) Winter, J.O., T.Y. Liu, B.A. Korgel, C.E. Schmidt (2001). Biomolecule-directed interfacing between semiconductor quantum dots and nerve cells. Advanced Materials.13: 1673-1677.
5) Schmidt, C.E., V.R. Shastri, J.P. Vacanti, and R. Langer (1997). Stimulation of neurite outgrowth using an electrically conducting polymer. Proceedings of the National Academy of Sciences. USA 94: 8948-8953.

Webpage:
http://www.bme.utexas.edu/faculty/schmidt/index.html

???? 3??

Group Name:
Lieber Research Group

Group Leader:
Charles M. Lieber

Affiliation:
Harvard University

Research Interest (Specified):
Bio-Nano Interface: Biological/Chemical Sensing includes Single particle detection, Large-scale addressable arrays, Detection of disease biomarkers and Small molecule detection. Nanodevice-Cell Hybrid Structures. Assembly & Interconnection.

Research Highlight:
They have pioneered the underlying science and application of nanoscale field-effect transistors for real-time label-free electrical detection of biological and chemical species in fluid solution. Nanowire devices represent nearly ideal sensor elements since their sizes are matched to that of biological macromolecules. Current interests are focused primarily on detection within the context of biological systems, although our projects range from ones pushing fundamental limits of detection to application of these devices to important biological problems such as detection of diseases and biowarfare agents. They have an active and growing program investigating this interface in several types of cells with a goal of creating systems that can process information using the unique attributes of both the biological and nanoelectronic components. They are also pursuing efforts that merge other complementary attributes of biology and nanotechnology. They are exploring the use of specific biomolecular interactions available in protein and protein/small molecule systems, to direct in a highly specific manner reversible and irreversible organization of nanostructures. Moreover, they are exploring biological systems as a means for 'building' new types of two-dimensional and three-dimensional interconnections between functional nanostructures and nanostructure arrays.

Representative Publication:
1) F. Patolsky, B.P. Timko, G. Zheng and C.M. Lieber, "Nanowire-Based Nanoelectronic Devices in the Life Sciences," MRS Bull. 32, 142-149 (2007).
2) F. Patolsky, B.P. Timko, G. Yu, Y. Fang, A.B. Greytak, G. Zheng and C.M. Lieber, "Detection, Stimulation, and Inhibition of Neuronal Signals with High-Density Nanowire Transistor Arrays," Science 313, 1100-1104 (2006).
3) G. Zheng, F. Patolsky, Y. Cui, W.U. Wang and C.M. Lieber, "Multiplexed electrical detection of cancer markers with nanowire sensor arrays," Nat. Biotechnol. 23, 1294-1301 (2005).
4) W.U. Wang, C. Chen, K. Lin, Y. Fang and C.M. Lieber, "Label-free detection of small-molecule-protein interactions by using nanowire nanosensors," Proc. Natl. Acad. Sci. USA 102, 3208-3212 (2005).
5) F. Patolsky, G. Zheng, O. Hayden, M. Lakadamyali, X. Zhuang and C.M. Lieber, "Electrical detection of single viruses," Proc. Natl. Acad. Sci. USA 101, 14017-14022 (2004).

Webpage:
http://cmliris.harvard.edu/

???? 4??

Group Name:
?????????????????????о?????

Group Leader:
???????????Σ??????
???????Σ??????

Affiliation:
????????????

Research Interest:
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Research Highlight:
http://www.biomater.com/yanjiukaifachengguo.asp

Representative Publication:
http://www.biomater.com/shangyehuachanpin/chanpinshow.asp?c_id=25
http://www.biomater.com/shangyehuachanpin/chanpinshow.asp?c_id=26

Webpage:
http://www.biomater.com/

[ Last edited by zhangwj on 2009-7-21 at 23:33 ]

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tfh0011

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高长有

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我来介绍高长有老师吧～～
Group Name&Group Leader：高长有教授博士
Affiliation:
浙江大学材料与化学工程学院高分子系杭州310027,
电话: +86-571-87951108
传真: +86-571-87951108
Email: cygao@mail.hz.zj.cn
cygao@zju.edu.cn

高长有，男，1966生于吉林辉南。1986－1996年，在吉林大学化学系学习，获得高分子化学与物理博士学位。1996－1998在浙江大学高分子系做博士后。2001起任职教授；2002年起为博士生导师。1999年至今，作为高访学者每年在德国马普胶体与界面研究所进行合作研究2－3个月。
Research Interest:
主要研究方向是生物医用高分子，是材料学、化学与生命科学高度交叉的前沿研究领域。在聚合物中空微胶囊的制备与性能研究方面取得了国际先进，在某些方面领先的成果；在组织工程支架的制备与表面相容性构建方面取得了创新性的研究成果。例如，解决了高完好率自组装聚电解质中空微胶囊的制备问题，获得了热和离子强度敏感的智能微胶囊；建立了基于连续介质理论和渗透压法测定纳米超薄膜机械强度方法，最先报道了聚电介质纳米超薄膜的弹性模量；发现了微胶囊热致尺寸变化现象；最早发现水溶性物质在微胶囊中的自沉积现象，并成功地用于酶、蛋白和药物（抗癌药）的包埋；较早建立了热致相分离技术制备聚合物组织工程支架的普适方法，制备了特定微结构的用于组织工程化软骨、皮肤和血管的多孔支架；较早报道了组织工程材料表面胺解、紫外光氧化接枝进而固定生物活性因子的新方法，及其有效促进软骨、成纤维和内皮细胞的生长作用。作为负责人先后承担国家自然科学基金面上项目3项，国家杰出青年科学基金和国家自然科学基金重点项目各1项，参与973项目“组织工程的基本科学问题”研究。在Angewandte Chemie、Advanced Materials、Chemical Communications、Chemistry, a European Journal、Chemistry of Materials、Macromolecules、Journal of Physical Chemistry B、Biomacromolecules、Biomaterials和Tissue Engineering等本学科国内外核心期刊发表论文100余篇，多为SCI、EI收录。多次参加国内外相关领域的学术会议并做邀请报告。专著《超分子层状结构－组装与功能》中撰写1章。国家授权发明专利8项，国际专利1项。获2003年度浙江省首届优秀博士后；2003年度浙江省高等学校科研成果奖一等奖1项；浙江省151人才二层次入选者。应邀为Journal of American Chemical Society、Advanced Materials、Chemistry of Materials、Langmuir、Macromolecules、Polymer、Tissue Engineering、Biomacromolecules、Biomaterials、Macromolecular Bioscience、Macromolecular Rapid Communications、Colloids and Surface A、Journal of Applied Polymer Science、Polymer Internationa等20余种刊物审稿。现为中国生物医学工程委员会生物材料分会委员，Journal of Zhejiang University、组织工程与重建外科杂志编委，科学通报特邀编辑。
目前的主要研究兴趣是生物材料的表面与界面、聚合物组织工程材料（如皮肤和软骨）、聚合物中空微胶囊（基础研究与药物控释）、表面图案化和纳米生物材料等。

Changyou Gao, Prof. Dr.
Department of Polymer Science and Engineering,
College of Materials Science and Chemical Engineering,
Zhejiang University, Hangzhou 310027,China

Tel: +86-571-87951108
Fax: +86-571-87951108
Email: cygao@mail.hz.zj.cn, cygao@zju.edu.cn

Education：
Ph.D. of Polymer Chemistry and Physics, Jilin University. China, July, 1996
Thesis: Molecule Design and Syntheses of High Performance Optical Resins
M.S. of Polymer Chemistry and Physics, Jilin University, China, July, 1993
Thesis: Preparation and Characterization of Organo-silicone Abrasion-resistant Films
Bachelor of Polymer Materials, Jilin University. China, July, 1990
Thesis: Interpenetrating Polymer Network of Polyurethanes/Polyacrylates/Epoxy Resins

Working Experience：
Dec. 2001-present, Professor of Materials Science, Department of Polymer Science and Engineering, Zhejiang University
July 1998-Dec. 2001, Associate professor of Materials Science, Department of Polymer Science and Engineering, Zhejiang University
Sep. 1996-Sep. 1998, Post doctor fellowship of polymer materials, Department of Polymer Science and Engineering, Zhejiang University
Oct. 1999-Nov. 1999, Deutscher Akademischer Austauschdienst (DAAD) fellowship, Germany
1999-present Visiting professor to Max-Planck-Institute of Colloids and Interfaces, Germany, 2-3 months per year.

Research Fields
1.Biointerfaces of polymeric materials and biological system. Aiming at modulating the response of biological system to the synthetic polymeric materials, surface engineering of the materials are being systematically investigated by advanced technologies such as confocal laser scanning microscopy, scanning force microscopy, scanning and transmission electron microscopy, fluorescence spectroscopy, infrared spectroscopy, and cell culture in vitro. Several novel techniques have been developed to incorporate biological molecules into the synthetic materials’ surfaces to obtain hybrids, such as photo-oxidation and photo-induced grafting, controllable aminolysis and layer-by-layer assembly etc.

2.Tissue engineering and tissue engineering materials. The regeneration of damaged or defected tissues by a tissue engineering way is very promising since this allows the recovery not only the macroscopic contours and functions, but also the micro-structure and normal response of natural tissues. Construction of tissue-engineered organs relies on the biodegradable scaffolds, seed cells, and the combination of them. Several methods have been developed to fabricate porous polymeric scaffolds with controllable microstructure, including thermally induced phase separation, and paraffin sphere leaching. The microstructure such as the pore size, porosity, pore shape and interconnectivity of the pores is well modulated by fabricating conditions. Specially tailored conditions can generate pores ranging from micrometers to hundreds of micrometers. Seeding mammalian cells such as fibroblasts, chondrocytes and endothelial cells into the scaffolds have obtained hybrids of materials and cells, which are promising candidates for regeneration of the corresponding organs, e.g. skin, cartilage and blood vessel.

3.Layer-by-layer assembly and hollow capsules. The integrity of the hollow capsules fabricated by layer-by-layer assembly on sacrificial cores and removal of the cores influences greatly the properties which are crucial for the subsequent studies. The fabrication of the hollow capsules has been well investigated with respect to the quality of the capsules, resulting in >90% of intact capsules at the optimal conditions. The mechanical property of the hollow capsules was firstly explored by osmotic induced capsule deformation, yielding the elasticity of the LBL multilayers constituting the capsule wall. The Surface texture of capsules and the thermally and salt induced capsule shrinking and swelling were found, and the inherent mechanism was discussed. A surprising phenomenon for the capsules was revealed that could spontaneously deposit many water soluble substances into the capsules at mild conditions. The deposition amount was quantified. Subsequent sustained release of the deposited substances was followed; the released anti-cancer drugs retained the function to induce cell apoptosis. A smarter encapsulation and release is under investigation by using pH or thermal sensitive polymers.
Many national grants have been approved to support the above research, including the Natural Science Foundation of China (3 projects, principle investigator), Extinguished Young Scientist Award (principle investigator) and Key project from the Natural Science Foundation of China (principle investigator), and Basic Research Program of China (973 project, co-investigator).
More than 100 peer-reviewed scientific papers, 1 book-chapter, and 8 authorized patents have been published. Being a referee for several peer-reviewed academic journals such as Journal of American Chemical Society, Advanced Materials, Chemistry of Materials, Langmuir, Macromolecules, Polymer, Tissue Engineering, Biomacromolecules, Biomaterials, Macromolecular Bioscience, Macromolecular Rapid Communications, Colloids and Surface A, Journal of Applied Polymer Science, Polymer International etc, and for the National Natural Science Foundation of China, the Doctoral Foundation of Education Ministry of China, and the Young Teacher Award of Chinese Universities.
工作研究领域
生物材料的表面与界面、聚合物组织工程材料（如皮肤和软骨）、聚合物中空微胶囊（基础研究与药物控释）、表面图案化和纳米生物材料等. Surface and Interface of Biomaterials, Biomaterials for Tissue Engineering and Regenerative Medicine, Polymeric Hollow Microcapsules, Surface Patterning, and Nanobiomaterials.
联系方式
电话：+86-571-87951108
Webpage&Research Highlight:
http://mypage.zju.edu.cn/personnelCard/biomaterials#item=2850

[ Last edited by tfh0011 on 2009-1-13 at 00:21 ]