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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】

请各位虫友将自己熟悉的生物材料届的研究组介绍给大家，无论是国内还是国际的都可以。
由于生物材料是一个涉及到多领域的交叉学科，可能有一些研究组不是那么闻名遐迩，但是在某一领域是具有自己的研究特色和相当出色的成果。有些很著名的大研究组从事的领域十分的广泛，其中有与生物材料相关的研究成果也很出色，可以将与生物材料相关的内容提取出来，单独介绍。
下面列出格式并举例供大家参考，海外的组请用英文，国内的组可以使用中文，但最好还是使用英文。
请跟贴的虫友最好付出一定的劳动，按格式将内容整理好。欢迎提供宝贵意见。

本帖的目的是希望为报考研究生，出国留学，寻求博后位置和求职就业的虫友提供参考。

【奖金】
提供信息1~3金币；
收集整理3个金币；
按格式整理5个金币；
完全按要求整理7个金币。

【格式】
Group Name: (研究组名称，若无，可用group leader名字命名)
Group Leader:
Affiliation:
Research Interest:
Research Highlight:
Representative Publication: (不多于5篇，包括专利)
Webpage:

【名录】请跟帖前务必对照无重复！
Aldo Boccaccini，Imperial College，第116楼
Angela Belcher，Massachusetts Institute of Technology，第100楼
Arto Urtti，University of Helsinki，第97楼
Buddy Ratner，University of Washington，第99楼
Chad Mirkin，Northwestern University，第25楼
Charles M. Lieber，Harvard University，第1楼
Christine E. Schmidt，The University of Texas at Austin，第1楼
David Kaplan，Tufts University，第103楼
Enrique Fernandez，Technical University of Catalonia，第37楼
Frank Witte，Hannover Medical School，第18楼
Henry J. Rack，Clemson University，第53楼
Hongjie Dai (戴宏杰)，Stanford University，第24楼
Huajian Gao (高华健)，Brown University，第16楼
Igor Zhitomirsky，McMaster University，第101楼
Joelle AMEDEE，Université Victor Segalen Bordeaux 2，第110楼
John Jansen，Radboud University Nijmegen，第43楼
Josep A. Planell，Universitat Politècnica de Catalunya，第38楼
K de Groot，Free University，第112楼
Kokubo Tadashi，Chubu University，第36楼
Jan Feijen，University of Twente，第49楼
Larry L. Hench，Imperial College，第111楼
Laurent Sedel，Hôpital Lariboisière，第39楼
Lemaitre Jacques，Swiss Federal Institute of Technology Lausanne，第35楼
Ma Jan，Nanyang Technological University，第27楼
Min Wang(王敏)，The University of Hong Kong，第113楼
Mitsuo Niinomi，Tohoku University，第55楼
Molly Stevens，Imperial College，第117楼
Nadrian C. Seeman，New York University，第50楼
Paul K. Chu (朱剑豪)，City University of Hong Kong，第1楼
Racquel Z . LeGeros，New York University，第107楼
Robert Langer，Massachusetts Institute of Technology，第46楼
Robin Wootton，University of Exeter，第17楼
Samuel I. Stupp，Northwestern University，第98楼
Shuming Nie (聂书明)，Emory University，第22楼
Song Li，University of California, Berkeley，第126楼
Subbu S. Venkatraman，Nanyang Technological University，第26楼
Xiaohu Gao (高�?虎)，University of Washington，第23楼
Xuejun Wen (文学军)，Clemson University，第124楼
Yang LENG，Hong Kong University of Science & Technology ，第106楼
常江，中科院上海硅酸盐研究所，第62楼
陈国强，清华大学、汕头大学，第54楼
陈晓农，北京化工大学，第65楼
成国祥，天津大学，第56楼
崔春翔，河北工业大学，第105楼
崔福斋，清华大学，第74楼
丁传贤，中科院上海硅酸盐研究所，第60楼
高长有，浙江大学，第67楼
顾忠伟，四川大学，第1楼
郝玉琳，中科院金属研究所，第68楼
黄楠，西南交通大学，第40楼
计剑，浙江大学，第77楼
李世普，武汉理工大学，第52楼
孔德领，南开大学，第69楼
李玉宝，四川大学，第44楼
刘昌胜，华东理工大学，第34楼
刘宣勇，中科院上海硅酸盐研究所，第61楼
刘万顺，中国海洋大学，第51楼
鲁雄，西南交通大学，第114楼
聂俊，北京化工大学，第76楼
庞代文，武汉大学，第14楼
申有青，浙江大学，第30楼
王均，中国科技大学，第109楼
王迎军，华南理工大学，第104楼
杨锐，中科院金属研究所，第68楼
俞耀庭，南开大学，第69楼
于振涛，西北有色金属研究院，第33楼
袁直，南开大学，第70楼
张立群，北京化工大学，第75楼
张兴栋，四川大学，第1楼
郑学斌，中科院上海硅酸盐研究所，第60楼
钟志远，苏州大学，第122楼
朱英杰，中科院上海硅酸盐研究所，第66楼

【征集名录】8金币！
William Bonfield，University of Cambridge，
曹阿民，中国科学院上海有机化学研究所，
邓正华，中国科学院成都有机化学分院，
杜福胜，北京大学，
甘志华，中国科学院化学研究所，
高家诚，重庆大学，
顾忠伟，四川大学，
关绍康，郑州大学，
黄世文，武汉大学，
江雷，中科院化学所，
蒋锡群，南京大学，
金岩，第四军医大学，
景遐斌，中国科学院长春应用化学研究所，
李晓光，首都医科大学，
李子臣，北京大学，
马建标，天津理工大学，
史林启，南开大学，
帅心涛，中山大学，
王均，中国科学技术大学，
王身国，中科院化学所，
翁杰，西南交通大学，
奚廷斐，中国药品生物制品检定所，
张二林，沈阳金属研究所，
张先正，武汉大学，
郑玉峰，北京大学，
钟振林，武汉大学，
钟志远，苏州大学，
卓仁喜，武汉大学，

举例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

举例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

举例 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/

举例 4：

Group Name:
国家生物医学材料工程技术研究中心

Group Leader:
中心名誉主任：张兴栋
中心主任：顾忠伟

Affiliation:
依托于四川大学

Research Interest:
主要从事生物医学材料、医用植入体、组织工程、控释系统及先进制造工艺技术的研究、开发和应用

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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LU Xiong Group

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Group Name:
LU Xiong Group

Group Leader:
LU Xiong (鲁雄)

鲁雄，男，1977年5月出生。博士（2004，香港科技大学），副教授。1999年7月毕业于重庆大学材料科学与工程学院，获工学学士学位。1999年8月获教育部公派香港科技大学机械工程系攻读硕士学位。2001年8月毕业获硕士学位。同年9月于香港科技大学机械工程系攻读博士学位，2004年8月毕业获哲学博士学位。2004年9月至2005年8月为香港科技大学机械工程系博士后研究员。2005年9月到西南交通大学材料科学与工程学院工作。参加工作以来在国内外学术刊物会议论文集上共发表三大检索收录论文二十余篇。本人作为第一作者发表SCI论文十余篇。申请专利三项。

Affiliation:
Southwest Jiaotong University (西南交通大学)

Research Interest (Specified):
Biomineraliztion, Hydroxyapatite, Thermodynamics

Research Highlight:
¨    材料表面涂层与材料的表面改性；

¨    纳米材料制备与应用；

¨    微制造与微机械加工（MEMS）；

¨    电化学沉积与镀膜，电化学刻蚀，电化学微加工；

¨    材料的计算机模拟与计算；

¨    CAD与有限元分析。

Representative Publication:
Journal Papers

1.    Xiong Lu, Yang Leng. Quantitative analysis of osteoblast behavior on microgrooved hydroxyapatite and titanium substrata, Journal of Biomedical Materials Research, 66A, 677-687, 2003 (SCI 收录，影响因子: 2.612) (Sep 2003).

2.    Xiong Lu, Yang Leng. TEM study of calcium phosphate precipitation on bioactive titanium surfaces, Biomaterials, 25, 1779-1786, 2004. (SCI 收录, 影响因子: 6.262) (May 2004).

3.    Xiong Lu and Yang Leng, Theoretical analysis of calcium phosphate precipitation in simulated body fluid, Biomaterials, 26, 1097-1108, 2005. (SCI 收录, 影响因子: 6.262). (April 2005)

4.    Xiong Lu, Yang Leng, Xingdong Zhang, Jinrui Xu,  Ling  Qin，Chun-wai Chan. Comparative study of osteoconduction on micromachined and alkali-treated titanium surfaces in vitro and in vivo, Biomaterials, 26, 1793-1801, 2005. (SCI 收录, 影响因子: 6.262)( May 2005).

5.    Xiong Lu, Yang Leng, Limin Jiang and Zhaowu Tian. Novel Techniques of Titanium Surface Patterning, Key Engineering Materials, 288-289, 619-624, 2005 (SCI 收录).

6.    Xiong Lu, Yang Leng. Electrochemical micromachining of titanium surfaces for biomedical application. Journal of Materials Processing Technology 169, 173–178, 2005. (SCI 收录, 影响因子: 0.816). (November 2005)

7.    Xiong Lu, Yang Leng, Lu-Tao Weng. TOF-SIMS study of bone mineralization on alkali-treated Ti alloy, Journal of Materials Science, 39, 6809-6811, 2004. (SCI 收录, 影响因子: 1.081). (November, 2004)

8.    Yang Leng, Xiong Lu and Jiyong Chen. Identifying calcium phosphates formed in simulated body fluid by electron diffraction, Key Engineering Materials, Volume 254-256, (Bioceramics 16), Pages 339-342 (2004) (SCI 收录).

9.    Xiong Lu, Zhanfeng Zhao, Yang Leng. Calcium phosphate crystal growth under controlled atmosphere in electrochemical deposition. Journal of Crystal Growth 284, 506–516, 2005. (SCI 收录, 影响因子: 1.950). (November 2005)

10.  Xiong Lu，Ying-bo Wang, Jian-xin Wang, Shu-xin Qu, Jie Weng, Ren-long Xin, Yang Leng, Calcium phosphate crystal growth under controlled environment through urea hydrolysis Journal of Crystal Growth 297,396–402, 2006. (SCI 收录, 影响因子: 1.950). ( December 2006 )

11.  Xiong Lu, Zhanfeng Zhao, Yang Leng. Biomimetic calcium phosphate coatings on nitric-acid-treated titanium surfaces. Materials Science and Engineering C, 27, 700–708, 2007. (SCI 收录, 影响因子: 1.486). ( May 2007)

12.  Xiong Lu, Ying-bo Wang; Yu-rong Liu; Jian-xin Wang, Shu-xin Qu, Bo Feng, Jie Weng, Preparation of HA/Chitosan composite coatings on alkali treated titanium surfaces through sol-gel techniques, Materials Letters，61, 3970–3973, 2007. (SCI 收录, 影响因子: 1.625) July 2007

13.  Xiong Lu, Yingbo Wang, Xiudong Yang, Qiyi Zhang, Zhanfeng Zhao, Lu-Tao Weng and Yang Leng， Spectroscopic analysis of titanium surface functional groups under various surface modification and their behaviors in vitro and in vivo, Journal of Biomedical Materials Research, 84A, 281-290, 2008. (February 2008) (SCI 收录，影响因子: 2.612)

14.  Xiong LU, Yang Leng, Qiyi Zhang, Electrochemical deposition of octacalcium phosphate micro-fiber/chitosan composite coatings on titanium substrates. Surface and Coatings Technology, 202, 3142–3147, 2008 (SCI 收录，影响因子: 1.678)（March 2008）

15.  Xiong LU, Yang Leng, Comparison of the Osteoblast and Myoblast Behaviors on Hydroxyapatite Microgrooves Journal of Biomedical Materials Research B Applied Biomaterials, accepted, 2008. (SCI 收录, 影响因子: 1.933)

16.  Hong-ping Zhang, Xiong Lu*, Li-ming Fang, Jie Weng, Nan Huang, Yang Leng, Molecular Dynamics Simulation of RGD Peptide Adsorption on Titanium Oxide Surfaces, Journal of Materials Science Materials in Medicine, 19:3437–3441, 2008,. (Corresponding Author) Nov, 2008.  (SCI 收录，影响因子: 1.581) 第一作者为本文学生

17.  Hongping Zhang, Xiong Lu*, Liming Fang, Shuxin Qu, Bo Feng, Jie Weng, Atomic-scale Interactions at the Interface of Biopolymer/Hydroxyapatite, Biomedical Materials. (Corresponding Author)  accepted. 2008(SCI 收录, 影响因子:0.787) 第一作者为本文学生

18.  Hong-ping Zhang, Xiong Lu*, Yang Leng, Liming Fang, Shuxin Qu, Bo Feng, Jie Weng, Jianxin Wang，Molecular dynamics simulations on the interaction between polymers and hydroxyapatite with and without coupling agents, Acta Biomaterialia (Corresponding Author) accepted. 2008(SCI 收录, 影响因子:3.113) 第一作者为本文学生

19.  Yingbo Wang, Xiong Lu*, Jing Zhao, Bo Feng, Jianxin Wang, Shuxin Qu, Jie Weng, Jianmin Chen, Preparation of Stable n-HA/ZrO2 Composite Coating by Pulsed Electrochemical Deposition, Rare Metal Materials and Engineering (In Chinese), 2008, accepted (Corresponding author) 脉冲电化学沉积制备n-HA/ZrO2复合涂层，稀有金属材料与工程 (SCI 收录，影响因子: 0.286) 第一作者为本文学生

20.  Ying-bo Wang, Xiong Lu*, Bo Feng, Shu-xin Qu, Jie Weng, Jian-min Chen,Investigation of HA/chitosan composite coatings prepared by sol-gel on alkali treated titanium surfaces, Journal of Inorganic Materials (in Chinese), 2008, accepted (Corresponding author) 钛表面制备羟基磷灰石/壳聚糖复合涂层研究，无机材料学报(SCI 收录，影响因子: 0.498) 第一作者为本文学生

21.  Xiudong Yang, Xiong Lu, Qiyi Zhang, Xingdong Zhang, Zhongwei Gu, Jiyong Chen, BCP coatings on pure titanium plates by CD method，Materials Science and Engineering C, (SCI 收录, 影响因子: 1.486) 27 (2007) 781–786. 16 May 2007

22.  Qiyi Zhang, Yang Leng, Renlong Xin, Chaoyuan Wang, Xiong Lu, Jiyong Chen, An effective approach to activate 316L stainless steel for biomimetic coating of calcium phosphate: electrochemical pretreatment, Journal of Materials Science, (SCI 收录, 影响因子: 1.081) 42 (15): 6205-6211 AUG 2007.

23.  Qiyi Zhang, Yang Leng, Xiong Lu, Renlong Xin, Xiudong Yang, Jiyong Chen, Bioactive films on metallic surfaces for osteoconduction, Journal of Biomedical Materials Research: Part A, accepted. (SCI 收录, 影响因子: 2.612)

24.  Jing Zhao, Suguang Xiao, Xiong Lu, Jianxin Wang and Jie Weng. A study on improving mechanical properties of porous HA tissue engineering scaffolds by hot isostatic pressing. Biomed Mater. 1(2006) 188-192. Dec 2006 (SCI 收录, 影响因子:0.787)

25.  Chi Deng, Jie Weng, Xiong Lu, Shaobing Zhou, Jianxin Wan, Shuxin Qu, Bo, Feng, B, Mechanism of ultrahigh, elongation rate of poly(D,L-lactide)-matrix composite biomaterial containing nano-apatite fillers, Materials Letters, 62, 607-610, February 2008 (SCI 收录, 影响因子: 1.625)

26.  Jing Zhao, Xiong Lu, Jie Weng, Macroporous Ti-based composite scaffold prepared by polymer impregnating method with calcium phosphate coatings, Materials Letters , 62, 2921-2924. June 2008.  (SCI 收录, 影响因子: 1.625)

27.  Chi Deng, Jie Weng, Qingyi Cheng, Shaobin Zhou, Xiong Lu, Jianxin Wang, Shuxin Qu, Bo Feng, Xiaohong Li, Choice of dispersants for the nano-apatite filler of polylactide-matrix composite biomaterial, Current Applied Physics 7 (6): 679-682 SEP 2007. (SCI 收录, 影响因子: 1.291)

28.  Chi Deng, Jie Weng, Xiong Lu, Shaobing. Zhou, Jianxin Wan, Shuxin Qu, Bo Feng, Xiaohong Li, Preparation and in vitro bioactivity of poly (D,L-lactide) composite containing hydroxyapatite nanocrystals, Materials Science and Engineering C 28 (2008) 1304–1310

29.  Zhoujun Wu, Bo Feng, Jie Weng, Shuxin Qu, Jianxin Wang, Xiong Lu， Biomimetic apatite coatings on Titanium coprecipitated with cephradine and salviae miltlorrhizae， Journal of Biomedical Materials Research: Part B-Applied Biomaterials，84B,486-492，February 2008. (SCI 收录, 影响因子: 1.933)

30.  Feng Bo, Weng Jie, Qu shuxin, Lu Xiong, Wang Jianxin, Nano-stucturalized surface modification for biomedical titanium, Real Metal Materials and Engineering,36(10):1693-1695, Oct 2007. 医用钛表面纳米结构化改性，稀有金属材料与工程(SCI 收录, 影响因子: 0.286))

31.  Jianxin Wang, Huichuan Zhao, Shaobing Zhou, Xiong Lu, Bo Feng, Caihong Duan, Jie Weng, One-step in situ synthesis and characterization of sponge-like porous calcium phosphate scaffolds using a sol–gel and gel casting hybrid process, J Biomed Mater Res, A: 2008 in press. (SCI 收录, 影响因子: 2.612)

32.  Shaolin Chen, Wenlong Liu, Zhijuan Huang, Xiaoguang Liu, Qiyi Zhang, Xiong Lu, The simulation of the electrochemical cathodic Ca-P deposition process Materials Science and Engineering  C, In Press, Accepted Manuscript, Available online 3 June 2008 (SCI 收录, 影响因子: 1.486)

33.  Wang Yingbo, Xiong LU, Jianxin Wang, Shuxin Qu, Jie Weng, Synthesis of OCP Fibers and Their Characterization, Journal of Functional Materials and Devices, (EI 收录) Oct 2007，05，Page 1-4. 纤维状磷酸八钙单晶体的合成方法及形成机理，功能材料与器件学报 Vol·13,No·5， 2007年10月

34.  Zhanfeng Zhao, Xiong Lu, and Yang Leng, Mechanism study of calcium phosphate deposition on titanium surface in simulated body fluid, Key Engineering Materials, Vols. 342-343 (2007) pp. 693-696  (EI收录)

35.  Bo Feng, Jie Weng, Yu Liang, Shuxin Qu, Jianxin Wang, Xiong Lu. Fabrication of porous titania and porous calcium phosphate coatings on titanium surface Key Engineering Materials, Vols. 330-332 (2007) pp. 529-532  (EI收录)

36.  Bo Feng, An Liu, Nan Wu, Jie Weng, Shuxin Qu, Jianxin Wang, Xiong Lu, Nano-HA coating on titanium surface fabricated by modulation of self-assembled monolayer and bovine serum albumin, Materials Science Forum Vols. 561-565 (2007) pp. 1529-1532 (EI收录)

37.  Nan Wu, Jie Weng, Shuxin Qu, Jianxin Wang, Xiong LU, Bo Feng, Hydroxyapatite formation and protein absorption on triethyl phosphate modified titanium surface, Advanced Materials Research Vols. 26-28 (2007) pp. 797-800

38.  Huaqiang Rao, Jianxin Wang, Xiong Lu, Bo Feng and Jie Weng,  Immobilization of bovine serum albumin on titanium through plasma polymerization of allylamine and crylic acid, Key Engineering Materials Vols. 361-363 (2008) pp. 713-716  (EI收录)

39.  Xiaobing Yang, Xiong Lu, Jingjing Ge, Jie Weng, Effect of a silane coupling agent on mechanical properties of hydroxyapatite/polycaprolactone composites Key Engineering Materials Vols. 361-363 (2008) pp. 531-534 (EI收录)

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