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小木虫论坛-学术科研互动平台 » 材料区 » 生物材料 » 国内外知名生物材料研究组介绍【重金收集中】
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goodwish

木虫 (正式写手)
★ ★ ★ ★ ★ ★
zhangwj(金币+6,VIP+0):谢谢分享!
Group Name:
生物化学与海洋生物活性物质研究室

Group Leader:
中心主任:刘万顺

Affiliation:
依托于中国海洋大学

Research Interest:
主要从事海洋生物医用材料、海洋药物、海洋生物活性物质生化制品的研究和开发。

Research Highlight:
http://222.195.158.131/hysm/005073.htm

承担项目:
1、国家“十一五”863重点项目“功能性壳聚糖止血修复材料的产业化技术研究”,2007年—2010年。
2、国家“十一五”863重大项目“组织工程角膜的研制与应用”,2007年—2010年。
3、国家“十五”863项目“新型甲壳质衍生物在组织工程中的应用研究”,2001年—2005年。
4、国家“十五”科技攻关项目“壳寡糖的规模化生产及应用开发研究”,2001年—2003年。
5、国家“九五”攻关项目“治疗胃溃疡海洋新药的研究。
6、国家“八五”科技攻关项目“抗皮肤溃疡海洋药物研究”。
7、国家自然科学基金项目“生物多糖膜的制备及角膜内皮细胞培养、移植研究”。
8、国家教育部项目“海洋医用溶栓酶研究”。

Representative Publication:
3、Yang Yan, Liu Wanshun, Han Baoqin, Fu Chenwei, Sun Haizhou. Synthesis of two new thiazolidines and their hepatoprotective effects. High Technology Letters, 2005.
4、Yang Yan, Liu Wanshun, Han Baoqin, Liu Bing, Fu Chenwei. Protective effects of chitosan oligosaccharide and its derivaties against carbon tetrachloride-induced liver damage in mice. Hepatology Research 2006, 35: 178-184
5、Yang Yan, Liu Wan-Shun, Han Bao-Qin, Sun Hai-Zhou。Antioxidative properties of a newly synthesized 2-glucosaminethiazolidine-4(R)-carboxylic acid (GlcNH2Cys) in mice。Nutrition Research 26 (2006) 369– 377
6、Yang Yan, Liu Wanshun, Han Baoqin, Wang Changhong, Fu Chenwei, Liu Bing, Chen Liehuan. The antioxidative and immunostimulating properties of D-glucosamine. International Immunopharmacology, 2007,7,29-35。
7、Liu, WS; Chen, LH; Han, BQ; Wei, XJ; Yang, CZ; Li, L; Yang, Y; Cao, P; Yao, Z。Chitosan/chondroitin sulfate blend film as a carrier for cultivated rabbit corneal endothelial cell transplantation。TISSUE ENGINEERING, 12 (4): 1032-1032 141 APR 2006
8、Bing Liu, Wan-Shun Liu, Bao-Qin Han, Yu-Ying Sun. Antidiabetic effects of chitooligosaccharides on pancreatic islet cells in streptozotocin-induced diabetic rats. World Journal of Gastroenterology, 2007, 13(5), 725-731。
9、Wang Dianliang, Liu Wanshun, et al. A Powerful Tool for Large-scale Culture of Animal Cells. Current Pharmaceutical Biotechnology,2005, 6(5):35-41
10、Wang Dianliang, Liu Wanshun, Han Baoqin. Enzymatic properties of UFE, a novel marine fibrinolyti enzyme. Acta Oceanpress Sinica, 2007, 26(2): 9-84-93
11、Wang Dianliang, Liu Wanshun, Han Baoqin,Ruian Xu. Biochemical and enzymatic porperties of a novel marine fibrinolytic enzyme from Urchis unicinctus. Applied biochemistry and biotechnology, 2007, 136(3): 251-264
12、Li Zhang,Wanshun Liu,Baoqin Han,Dongfeng Wang. Synthesis and antitumor activity of arginine-glucosamine conjugate. Carbohydrate Polymers,2007,69:644-650
13、Guo Chenghua, Liu Wanshun, Han Baoqin, Dong Xinwei, et al. Extraction and analysis of polyunsaturated fatty acid from Asterina pectinifera in Huanghai Sea. High Technology Letters, 2006, Vol.12, No.2, 198-202
14、Yuying Sun,Wanshun Liu,Baoqin Han,Jiquan Zhang,Bing Liu。Purification and characterization of two types of chitosanase from a Microbacterium sp.  Biotehnol Lett,2006,28:1393-1399
15、陈列欢,刘万顺,韩宝芹,位晓娟,杨朝忠。角膜内皮细胞载体膜片的性质研究及其移植试验。高等学校化学学报,2006,27(5):880-884   SCI收录
16、位晓娟,刘万顺,韩宝芹,陈列欢,杨朝忠。角膜内皮细胞载体的体外培养及移植的研究。中国生物医学工程学报,2006,25(5):590-595.  EI收录
17、刘冰,刘万顺,韩宝芹.壳寡糖促胰岛细胞增殖、胰岛素分泌及调节餐后血糖作用的研究[J]. 同济大学学报.2006,27(6):6~11. EI收录
18、桑青,刘万顺,韩宝芹等。羧甲基壳聚糖铋盐在大鼠体内分布及排泄的初步研究。高技术通讯,2005。
19、、桑青,韩宝芹,刘万顺等。羧甲基壳聚糖铋盐抗大鼠胃溃疡及杀灭幽门螺杆菌作用的研究。高技术通讯,2004。
20、陈列欢,刘万顺,韩宝芹等。三种角膜内皮细胞载体膜片的性质研究。中国生物医学工程学报,2005。
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51楼2008-12-19 08:25:24
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lotus9

木虫 (著名写手)
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zhangwj(金币+5,VIP+0):谢谢分享!
武汉理工大学 李世普

Group Name:
武汉理工大学生物材料与工程研究中心

Group Leader:
李世普

Affiliation:
武汉理工大学生物材料与工程研究中心

Research Interest:
生物医用材料的研究与开发

Research Highlight:
人工骨、人工关节、无机纳米药物、组织工程、神经导管、血管栓塞材料、生物传感器、生物医用材料与细胞/组织的界面相互作用……
研究涉及生物无机材料、生物复合材料、生物金属材料、生物高分子材料、生物纳米材料、仿生材料等各个领域


Webpage:
http://public.whut.edu.cn/shwzhx/
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52楼2008-12-20 18:40:18
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may673

铁杆木虫 (正式写手)
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yusen_1982(金币+6,VIP+0):谢谢分享!
Group Name: School of Materials Science & Engineering
Group Leader: Prof. Henry J.Rack
Affiliation: Clemson University
Research Interest:  
1.Synthesis of Low Modulus, Wear Resistant Biocompatible Orthopedic Alloys
2.Phase Transformations in Titanium Alloys
3.Adaptive Manufacturing of Smart Materials
4. Severe-Plastic Deformation of Advanced Metallics and Composites
5. Planar Flow Casting of Amorphous Metals
Research Highlight: biomedical metal materials; Ti alloy
Representative Publication: 很多,可浏览其主页
1.J. I. Qazi, B. Marquardt and H. J. Rack, HIGH STRENGTH METASTABLE BETA TITANIUM ALLOYS FOR BIOMEDICAL APPLICATIONS, JOM, Vol. 56, No. 11, 49(2004).

2.M. Long and H. J. Rack, SUBSURFACE DEFORMATION AND MICROCRACK FORMATION IN Ti-35Nb-7Zr-5Ta-O(x)DURING RECIPROCAL SLIDING WEAR, Mat’ls Sci. & Eng., Vol. C25 382(2005)

3.J. I. Qazi, B. Marquardt, L. Allard and H. J. Rack, PHASE TRANSFORMATIONS IN Ti-35Nb-7Zr-5Ta(0.06-0.7)O ALLOYS, Mat’ls Sci. & Eng., Vol. C25 389(2005).

Webpage: http://www.clemson.edu/mse/People/Rack.htm
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53楼2008-12-26 09:26:58
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guangyml

木虫 (小有名气)

清华大学,汕头多学科研究中心--陈国强

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zhangwj(金币+6,VIP+0):谢谢分享!
zhangwj(金币+2,VIP+0):悬赏金!
Group Name:
清华大学微生物实验室,汕头大学多学科研究中心(李嘉诚基金会)

Group Leader:
陈国强

Affiliation:
清华大学,汕头大学

Research Interest:
主要从事PHAs可降解生物材料的开发,积极参与绿色材料的推广,包括08北京奥运一次性可降解塑料的检测工作。
主要研究领域是微生物作为一个合成体系的应用,包括:
1. 微生物合成新型高分子-聚羟基脂肪酸酯及其作为组织工程材料的应用:
2. 分子进化技术和代谢工程技术在微生物菌种改良中的应用
3. 微生物生产新型材料和新型化合物的发酵工程技术开发
4. 微生物合成新型手性化合物的代谢工程研究

Research Highlight:
http://microbes.biosci.tsinghua.edu.cn:8002/ch.htm
http://mrc.stu.edu.cn/Chinese/Intro/Intro.htm

在国际学术期刊上共发表有关生物材料PHA的论文120多篇,被引用一千三百多次。获得授权专利19项,20多个公开专利申请。现担任国际学术期刊《Applied Microbiology and Biotechnology》、《Biomaterials》、《Artificial Cells, Blood Substitutes and Biotechnology》和《Asia Pacific Biotech News》编委,同时担任国内核心学术期刊《生物工程学报》副主编以及《生物加工过程》、《高分子学报》和《生物技术产业》编委。担任联合国工业发展暑— 国际高科技中心(ICS-UNIDO)的应用化学专家组生物可降解材料委员和中国生物工程学会常务理事。陈教授多次组织了有关生物新材料PHA的国际学术会议,并在国际相关学术会议上应邀做了多次大会和特邀报告。主持了多项国家生物塑料PHA重大的基础研究和产业化项目。在过去的五年里,陈教授获得的荣誉包括:教育部长江学者特聘教授、第八届中国青年科技奖、自然科学基金委国家杰出青年、纽伦堡国际发明奖、国家发明二等奖(排名第一),茅以升科技奖、教育部高校青年教师奖等。曾连续6年获得清华大学学生“良师益友”的光荣称号。

International Publication

1 Chen GQ, Koenig KH and Lafferty RM.Production of poly-D(-)-3-hydroxybutyrate and poly-D(-)-3-hydroxyvalerate by strains of Alcaligenes latus . Antonie van Leewenhoek 60 (1991) 61-66

2 Chen GQ , Koenig KH and Lafferty RM. Occurrence of poly-D (-)-3-hydroxyalkanoaies in the genus Bacillus . FEMS Microbiol. Letters 84 (1991) 173-176

3 Haigermoser C, Chen GQ , Grohman.E, Hrabak O and Schwab H. Stability of r-microbes: Stabilization of plasmid vectors by the partitioning function of broad-host- range plasmid RP4. J. Biotech 28 (1993) 219-299

4 Chen GQ , .Wu L, Coombes A, Davis SS and Illum L Preparation of human serum albumin microspheres by a novel acetone-heat denaturation method. J. Microencapsulation 11(1994) 395-407

5 Chen GQ and Page WJ The effect of substrate on the molecular weight of poly-beta-hydroxybutyrate produced by Azotobacter vinelandii UWD. Biotechnol. Lett 16 (1994) 155-160

6 Chen GQ and Page WJ. Production of poly-beta-hydroxybutyrate by Azotobacter vinelandii UWD in a two-stage fermentation process. Biotechnol. Techniques 11(1997) 347-350

7 Yu PH, Chua H, Huang AL. Lo W and Chen GQ . Conversion of Food industrial Wastes into Bio-plastics. Appl. Biochem. and Biotechnol. 70 (1998) 603-614

8 Kim TN, Feng QL, Kim JO,. Wu J, Wang H, Chen GC and Cui FZ. Anti-microbial effects of metal ions (Ag + , Cu 2+ , Zn 2+ ) in hydroxyapatite. J. Materials Science: Materials in Medicine 9 (1998) 129-134

9 He WN, Tian WD, Zhang G, Chen GQ and Zhang ZM. Production of novel polyhydroxyalkanoates by Pseudomonas stutzeri 1317 from glucose and soybean oil. FEMS Microbiol. Lett. 169 (1998) 45-49

10 Hong K, Sun SQ, Tian WD, Chen GQ, Huang W. A rapid method for detecting bacterial PHA in intact cells by FT-IR. Appl. Microbiol. Biotechnol. 51 (1999) 523-526

11 Yao J, Zhang G, Wu Q, Chen GQ and Zhang RQ. Production of polyhydroxyalkanoates by Pseudomonas nitroreducens . Antonie van Leewenhoek 75 (1999) 345-349

12 He WN, Zhang ZM, Hu P and Chen GQ . Microbial synthesis and characterization of polyhydroxyalkanoates by strain DG17 from glucose. Acta Polymerica Sinica 6 (1999) 709-714

13 Zhang DM, Cui FZ, Luo ZS, Lin YB, Zhao K and Chen GQ . Wettability improvement of bacterial polyhydroxyalkanoates via ion implantation.. Surface & Coating Technology 131 (2000) 1-5

14 Cui FZ, Sun SQ, Zhang DM , Ma ZL, Chen GQ . Molecular alteration and carbonization of aspartic acid upon N+ ion irradiation.  NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION B-BEAM INTERACTIONS WITH MATERIALS AND ATOMS 169 (2000) 48-53

15 Zhang DM , Cui FZ, Sun SQ, Lin YB, Tian MB, Chen GQ . Influence of low-energy ion irradiation on plasma membrane permeability of cells. CHINESE PHYSICS LETTERS 17 (2000) 61-63

16 Xi JZ, Wu Q, Yan YB, Zhang ZM, Yu HP, MK Cheung, Zhang RQ and Chen GQ . Hyperproduction of polyesters consisting of medium-chain-length hydroxyalkanoate monomers by strain Pseudomonas stutzeri 1317. Antonie van Leeuwenhoek 78 (2000): 43-49

17 Hong K, Chen GQ , PH Yu, Zhang G and Liu Y. Effect of C/N ratio on monomer composition of polyhydroxyalkanoate (PHA) produced by Pseudomonas mendocina 0806 and Pseudomonas pseudoalkaligenus YS1, Appl. Biochem. and Biotechnol. 84-86 (2000): 971-980

18 Feng QL, Wu J, Chen GQ , Cui FZ, Kim TN, Kim JO. A mechanistic study of the antibacterial effect of silver ions on Escherichia coli and Staphylococcus aureus . J Biomed Mater Res 52 (4) (2000) 662-8

19 Sun SQ, Zhou Q, Hou WJ, Wu Q, Chen GQ . Study on mechanism of different PHAs during heating by FTIR. Spectroscopy and Spectral Analysis 20 (5) (2000) 677-678

20 Tian WD, Hong K, Chen GQ , Wu Q, Zhang RQ and Huang WY . Production of polyesters consisting of medium chain length 3-hydroalkanoic acids by Pseudomonas mendocina 0806 from various carbon sources. Antonie van Leewenhoek 77 (2000) 31-36

21 Chen GQ , Wu Q, Zhao K, Yu HP & Chan A. Chiral Biopolyesters- Polyhydroxyalkanoates Synthesized by Microorganisms. Chinese J of Polymer Science 18 (2000) 389-396

22 Chen GQ, Wu Q, Xi JZ, Yu HP and Chan A. Microbial production of biopolyesters-polyhydroxyalkanoates. Progress of Natural Sciences 10 (2000) 843-850

23 Wu Q, Sun SQ, Yu PHF, Chen AXZ, Chen GQ . Environmental Dependence of Microbial Synthesis of Polyhydroxyalkanoates. Acta Polymerica Sinica 6 (2000) 751-756

24 Chen GQ, Xu J, Wu Q, Zhang ZM and Ho KP. Synthesis of copolyesters consisting of medium-chain-length-hydroxyalkanoates by Pseudomonas stutzeri 1317. Reactive & Functional Polymers 48 (2001) 107-112

25 Tian G, Wu Q, Sun SQ, Noda I, Chen GQ . Study of Thermal Melting Behavior of Microbial Polyhydroxyalkanoates Using Two-Dimensional Fourier-Transform Infrared FT-IR Correlation Spectroscopy. Appl. Spectroscopy 55(7) (2001) 888-894

26 Wu Q, Tian G, Wu Q, Sun SQ, Noda I, Chen GQ Study of Microbial Poly(hydroxybutyrate-co-hydroxyhexanoate) Using Two-Dimensional Fourier-Transform Infrared Correlation Spectroscopy. J Appl Polym Sci. 82 934-940 (2001)


Bookchapters

1. Foundations and Applications of Industrial Microbiology (By XU H and CHEN GQ et al.) Chinese Academic Publisher (1991)

2. Microbial Synthesis in Polymer Sciences Across the Century (ed. Hu HJ et al) Chen GQ. Chemical Engineering Publisher (2001)

3. Production and Application of Microbial Polyhydroxyalkanoates. in “Biodegradable Polymers and Plastics” (Ed. Chiellini E and Solaro R). Wkap Publisher (2003) pp155-166

4. Biopolymers (Translated By Chen GQ et al) (Chemical Industry Publisher) (2004)

5. Polyhydroxyalkanoates in Biodegradable Polymers in “Biodegradable Polymers for Industrial Applications” (Ed. Smith Ray) (Woodhead Publishing Ltd. Co.) (2005)

6. Natural Biomass Engineering Materials 天然生物质工程材料 in 《中国新材料产业发展报告 2005 》 .( China Material Research Society). (Submitted in 2005)

7. Frontier and Progress of Polymer Research 《高分子科学前沿与进展》 (Ed. DONG Jianhua) (Natural Science Foundation of China) (Submitted in 2005)



Issued Patents

1. Chen GQ . Li MQ, Chen JC. Zhao K and Wu Q. A method for separation of intracellular polyhydroxyalkanoates. 一种分离细胞内聚羟基脂肪酸酯的方法 . Chinese Patent ZL 98 1 00266.8 (2001)

2. Zhou Q, Gu YS and Chen GQ A new process for high efficient fermentative production of alcohol by yeast cultivated in molasses. 一个用废糖蜜为原料高效发酵生产酒精的新技术 . Chinese Patent No. ZL 99121907.4 (2002)

3. Chen GQ , Yang XS, Zhao K, Chen JC. The application of poly(3-hydroxybutyrate-co- hydroxyhexanoate) as tissue engineering materials. 一种生物材料和为组织工程材料 . Chinese Patent No. ZL 01 1 29618.6 (2004)

4. Chen GQ , XI JZ , WU Q, Chen JC. Production of Chiral 3- (R)-Hydroxybutyric Acid Using Recombinant Escherichia coli. 采 用重组大肠杆菌生产手性 3-(R) -羟基丁酸的方法 . Chinese Patent Application no. ZL 01118668.2 (2004)

5. Chen GQ , ZHANG J, WU Q, CHEN JC An Aeromonas hydrophila Strain and Its Application. 一株嗜水气单胞菌及其应用 . Chinese Patent No. ZL 01134576.4 (2004)

6. Chen GQ, GAN ZX. A Method for Extraction and Purification of Intracellular Microbial Polyhydroxyalkanoates. 一种从细菌体内分离提取聚羟基脂肪酸酯的方法 . Chinese Patent No. ZL 02130725.3 (2005)

7. Chen GQ , GAO HJ, WU Q, CHEN JC A Method for Production of D-(-)3-hydroxybutyric acid. 一种生产 D-(-)- 3 - 羟基丁酸的方法 . Chinese Patent No. ZL 02100014.X (2005)

8. Chen GQ , ZHENG Z and WU Q A Method for Production of 3-Hydroxydecanoate. 一种生产 3 -羟基癸酸的方法 . Chinese Patent No. ZL 02117571.3 (2005)
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54楼2008-12-27 14:18:52
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may673

铁杆木虫 (正式写手)
★ ★ ★ ★ ★
yusen_1982(金币+5,VIP+0):谢谢分享!
Group Name: Niinomi Laboratory
Group Leader: Mitsuo Niinomi
Affiliation: Tohoku University
Research Interest: Designing and development ofnew biomaterials, and evaluations of mechanical, chemical and biologicalproperties of biomaterials utilized for mainly hard tissue substituting instrumentsare investigated. The purpose of our research is to solve various problems, to whichthe conventional biomaterials are facing, with applying knowledge andtechniques of material science and engineering, leading to the development of highperformance biomaterials. Our research works are currently carried out in collaborationswith the medical and dental researchers, and engineering researchers indifferent fields.
Research Highlight: biomedical metal materials Ti-29Nb-13Ta-4.6Zr Alloy
Representative Publication:
1.        Niinomi M, Kobayashi T. Fracture Characteristics Analysis Related to the Microstructures in Titanium Alloys. Materials Science and Engineering A, 1996, 213:16-24
2.        Mitsuo Niinomi, Daisuke Kuroda, Kei-ichi Fukunaga, Masahiko Morinaga, Yoshihisa Kato, Toshiaki Yashiro and Akihiro Suzuki. Corrosion wear fracture of new  type biomedical titanium alloys. Materials Science and Engineering A. 1999, 263: 193–199
3.        Mitsuo Niinomi, Tomokazu Hattori, Keizo Morikawa, et al. Development of low rigidity -type titanium alloy for biomedical applications. Materials Transactions. 2002, 43(12): 2970-2977
4.        Mitsuo Niinomi. Recent Metallic Materials for Biomedical Applications. Metallurgical and Materials Transactions A. 2002, 33A: 477-486
5.        Mitsuo Niinomi. Mechanical biocompatibilities of titanium alloys for biomedical applications. Journal of the mechanical behavior of biomedical materials. 2008, 30-42
Webpage:http://biomat.imr.tohoku.ac.jp/Englishfreshindex.html
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55楼2008-12-29 08:36:47
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fhzfhz2006

木虫 (正式写手)

zhangwj(金币+1,VIP+0):谢谢提供信息,按顶楼要求编辑整理会有追加金币奖励!
天津大学 的 成国祥  8 错的
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56楼2008-12-29 21:15:33
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青青河边草8820

铜虫 (初入文坛)
★ ★
zhangwj(金币+2,VIP+0):谢谢新虫提供信息!
丁传贤,中国科学院上海硅酸盐研究所
刘宣勇,中国科学院上海硅酸盐研究所
常江,中国科学院上海硅酸盐研究所
郑学斌,中国科学院上海硅酸盐研究所
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57楼2009-01-03 15:59:22
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chemist229

金虫 (职业作家)

zhangwj(金币+1,VIP+0):有时间的话,可否把硅酸盐所的组按照顶楼的要求介绍一下?金币不会少的:)
引用回帖:
Originally posted by 青青河边草8820 at 2009-1-3 15:59:
丁传贤,中国科学院上海硅酸盐研究所
刘宣勇,中国科学院上海硅酸盐研究所
常江,中国科学院上海硅酸盐研究所
郑学斌,中国科学院上海硅酸盐研究所

哈哈,你也是sic的?我说他们怎么把丁老师和刘老师给忘了呢!
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58楼2009-01-05 20:13:06
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huanxin

银虫 (初入文坛)
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关绍康  郑州大学
郑玉峰  北京大学
张二林  沈阳金属研究所
高家诚  重庆大学
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59楼2009-01-05 21:17:49
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chemist229

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zhangwj(金币+8,VIP+0):谢谢分享!
Group Name: 中国科学院上海硅酸盐研究所特种无机涂层中心,丁传贤(工程院院士),郑学斌研究员

Group Leader: 郑学斌

Affiliation:中国科学院特种无机涂层重点实验室

Research Interest:1.生物涂层材料的研究;
2.抗核辐照涂层材料的研究。

Research Highlight:先后负责或参加973、863、自然科学基金、上海市科委基金等多项科研项目。主持完成的上海市科技发展基金项目“等离子喷涂羟基磷灰石生物材料制备中的关键技术研究”,获上海市2002年度科技进步二等奖。课题组承担的973课题“Ca-P生物材料骨诱导性及其机理研究”,于2004年9月顺利通过验收,并获专家组较好评价,之后再次获得973课题“生物材料的组织诱导作用的诱发及机理”的资助。负责的国家自然科学基金项目“等离子喷涂生物活性硅灰石涂层的研究”、863项目“等离子喷涂B4C涂层技术和可控硼化技术研究”,已顺利完成,并取得较好结果。负责的研发项目“人工髋关节用真空等离子喷涂Ti、HA涂层技术开发研究”,已进入批量生产阶段,迄今累计喷涂涂层产品约20,000件,供有关厂商投放市场并获临床应用,社会和经济效益均较良好。基于以上工作,取得国际先进的科技成果两项,在国内外学术刊物发表论文50余篇,获发明专利一项,申请发明专利二项。

Representative Publication: (不多于5篇,包括专利)
1. 郑学斌,刘宣勇,丁传贤,陶顺衍,季珩,黄静琪.“等离子喷涂羟基磷灰石生物涂层制备中的关键技术研究”.上海市科学技术进步二等奖(2002年),获奖号:022066.
2. X.B. Zheng, M.H. Huang and C. X. Ding. Bonding Strength of Plasma Sprayed Hydroxyapatite / Ti Composite Coatings. Biomaterials, 2000, 21: 841-849.
3. X.B. Zheng and C. X. Ding. Characterization of Plasma Sprayed Hydroxyapatite / TiO2 Composite Coatings. J. Thermal Spray Technology, 2000, 9(4): 520-525
4. X.B. Zheng and C. X. Ding. Characterization of Plasma Sprayed Hydroxyapatite / Zirconium Oxide Composite Coatings. Journal of the Korean Vacuum Society, 2000, 9(s1): 89-94
5. X.B. Zheng, Jianmin Shi, Xuanyong Liu and C. X. Ding. Developments of Plasma-sprayed Biomedical Coatings. J. Ceramic Processing Research, 2001, 2(4): 174-179.

Webpage:丁传贤:[url]http://www.sic.ac.c ... gchuanxian/54_1.htm
郑学斌:http://sic.ac.cn/list/management/yanjiusheng/jianli/209_2.htm[/url]

[ Last edited by chemist229 on 2009-1-5 at 23:45 ]
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60楼2009-01-05 23:21:19
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chemist229

金虫 (职业作家)
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zhangwj(金币+7,VIP+0):谢谢分享
Group Name: 中国科学院上海硅酸盐研究所生物材料表面工程课题组 刘宣勇

Group Leader:刘宣勇

Affiliation:中国科学院上海硅酸盐研究所生物材料研究中心

Research Interest:等离子喷涂生物涂层等

Research Highlight:从攻读博士学位期间至今,刘宣勇博士一直从事生物医用材料表面改性方面的研究,并获得多项原创性研究成果:(1)采用等离子体喷涂方法成功制备了硅灰石和硅酸二钙等钙硅基生物活性陶瓷涂层,首次将传统硅酸盐材料用以制备生物活性陶瓷涂层,拓宽了生物材料的选材范围,反映这一成果的博士学位论文“等离子喷涂生物活性硅灰石涂层研究”入选2004年度全国优秀博士学位论文;(2)采用等离子体喷涂技术,成功制备出了表面纳米化氧化钛涂层,通过对涂层进行紫外辐照或氢离子注入等后处理,获得了综合性能优良的生物活性纳米氧化钛涂层;(3)采用等离子体浸没离子注入技术改善了硅单晶的生物活性和生物相容性,为制备可植入硅基传感器提供了可能;(4)阐述了上述材料的生物活性与生物相容性机制,较为系统地分析了植入体材料表面组分、结构与其生物学性能之间的关系,为植入体材料的制备和应用提供了科学依据。
刘宣勇博士先后获得中国科学院全国优秀博士学位论文专项基金、上海市青年科技启明星计划和跟踪计划等人才基金资助,并主持了国家重点基础研究发展规划项目(973)的子课题、国家自然科学基金面上项目、上海市科委基础研究重点项目和上海市纳米专项等多项国家和地方科研项目。
刘宣勇博士及其课题组成员先后在国际学术期刊上发表学术论文80余篇,其中60余篇论文被SCI收录,并申请中国发明专利6项。2001年至今在生物材料领域著名期刊Biomaterials上发表论文15篇(第一作者7篇),充分反映了刘宣勇博士在生物医用材料表面改性研究方面的显著成绩,并应邀为著名科技期刊Materials Science & Engineering R- Reports(2006年SCI影响因子为17.731)撰写相关综述性论文,为CRC Press/Taylor & Francis Group等出版社主编或合著相关专著,为美国材料年会(MRS’2007)等多个国际会议上做邀请报告多次。

Representative Publication: (不多于5篇,包括专利)
1.Liu, X. Y. and C. X. Ding (2002). "Plasma sprayed wollastonite/TiO2 composite coatings on titanium alloys." Biomaterials 23(20): 4065-4077.
2. Liu, X. Y., C. X. Ding, et al. (2004). "Mechanism of apatite formation on wollastonite coatings in simulated body fluids." Biomaterials 25(10): 1755-1761.
3. Liu, X. Y., S. Y. Tao, et al. (2002). "Bioactivity of plasma sprayed dicalcium silicate coatings." Biomaterials 23(3): 963-968.
4. Liu, X. Y., X. B. Zhao, et al. (2005). "Plasma-treated nanostructured TiO2 surface supporting biomimetic growth of apatite." Biomaterials 26(31): 6143-6150.
5. 发明名称:硅酸二钙涂层—钛合金承载骨替换材料及制备方法,发明人:刘宣勇,郑学斌,陶顺衍,丁传贤, 申请号:02111344.0

Webpage:http://www.sic.ac.cn/list/scienc ... /biaomian/184_2.htm

[ Last edited by chemist229 on 2009-1-5 at 23:45 ]
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61楼2009-01-05 23:23:10
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chemist229

金虫 (职业作家)
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zhangwj(金币+7,VIP+0):谢谢分享
Group Name: 中国科学院上海硅酸盐研究所生物材料表面工程课题组

Group Leader:常江

Affiliation:中国科学院上海硅酸盐研究所生物材料研究中心

Research Interest:
1.用于组织损伤修复和组织工程的可降解生物活性材料的研究
(包括生物玻璃、生物陶瓷、生物高分子材料、天然生物材料、生物复合材料、纳米生物材料、多孔支架材料)
2.作为药物载体的生物材料以及药物控制释放的研究
3.细胞与生物材料相互作用机理研究
(材料对细胞的黏附、增殖、分化及基因表达的影响)
4.生物材料的理化性能和生物相容性评价

Research Highlight:我中心常江研究员带领的课题组在制备可控图案化电纺丝纤维材料方面取得了重要进展。成功制备出具有复杂可控图案化和编织结构的电纺丝纤维支架材料(如下图)。此方法是电纺丝技术的一个重要拓展,对于电纺丝材料在生物医学工程领域特别是组织工程领域以及其它工业领域的应用具有重要意义。该研究工作作为“important paper”(top 25%)发表在国际著名杂志《Advanced Materials》(Adv. Mater. 2007, 19, 3664–3667,2006年影响因子7.896)上,并已申报发明专利一项。

Representative Publication: (不多于5篇,包括专利)
1. Songfeng Xu , Kaili Lin , Zhen Wang , Jiang Chang , Lin Wang , Jianxi Lu , Congqin Ning. Reconstruction of calvarial defect of rabbits using porous calcium silicate bioactive ceramics. Biomaterials, 2008, 29:2588-2596
2. Daming Zhang, Jiang Chang, Electrospinning of 3D nanofibrous tubes with controllable architectures, Nano Letters, 2008
3. Daming Zhang, and Jiang Chang, Patterning of electrospun fibers using electroconductive templates, Advanced Materials, 2007, 19:3664-3667
4. Hongli Sun, Chengtie Wu, Kerong Dai, Jiang Chang, Tingting Tang, Proliferation and osteoblastic differentiation of human bone marrow-derived stromal cells on akermanite bioactive ceramics, Biomaterials, 2006, 27: 5651-5657.
5. 原位化学沉淀法制备硅酸钙/B-磷酸三钙复合粉体的方法 常江、林开利  200510111365.2 20051209

Webpage:http://www.sic.ac.cn/list/scienc ... zu/yiyong/182_2.htm

[ Last edited by zhangwj on 2009-1-6 at 00:11 ]
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62楼2009-01-05 23:43:38
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chemist229

金虫 (职业作家)

★★★★★ 五星级,优秀推荐

慰劳一下版主呵呵!
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63楼2009-01-05 23:51:19
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shenxinche

铜虫 (小有名气)
武汉大学卓仁喜老师和黄世文老师就是一起的嘛,一个课题组的
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64楼2009-01-06 22:04:31
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飞雪龙龙


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zhangwj(金币+6,VIP+0):谢谢新从分享,欢迎常来生物材料版!
Group Name: 北京化工大学生物材料系
Group Leader:陈晓农

Affiliation:北京化工大学
Research Interest:
1. 生物材料
采用可控聚合方法设计、合成生物相容性聚合物,材料表面阻抗蛋白吸附性能研究,生物大分子与智能聚合物相互作用机制及应用研究。
2. 智能聚合物
超高分子量温敏聚合物、温敏微凝胶的制备与应用,pH敏感聚合物,可逆乳化剂。
3. 胶体与聚合物乳液
研究合成聚合物与生物大分子络合过程及其胶体特性;用于水基涂料和粘合剂的功能性聚合物乳液。
4. 絮凝剂及造纸用聚合物
聚乙烯胺的合成、改性及其应用,水溶性聚合物的高效、“绿色”制备工艺,新型纸张增强剂的合成及配合体系研究
5、可控聚合


Research Highlight:
PNIPAm温敏微凝胶用于抗蛋白吸附,PVP的可控聚合

Representative Publication: (不多于5篇,包括专利)
1)Deqiang Yu, Xiaonong Chen, Robert H. Pelton, Raja Ghosh, “Purification of Monoclonal Antibody by Hydrophobic Interaction Membrane Chromatography Using PEG Grafted Filter Paper”, Biotechnology and Bioengineering, in press, 2007.
 2)Chuanwei Miao, Xiaonong Chen, Robert Pelton, “Adhesion of Polyvinylamine Microgels to Wet Cellulose”, Ind. Eng. Chem. Res, 46, 6486, 2007.
 3)Yi Wang, Xiaonong Chen and Robert Pelton, “Interactions of Hydrophobically Modified Polyvinylamine with Pluronic Tri-block Copolymer Micelles”, Langmuir, 22, 4952, 2006.
 4)Chuanwei Miao, Robert Pelton, Xiaonong Chen and Marc Leduc, “Microgels Versus Linear Polymers For Paper Wet Strength – Size Does Matter”, Appita Journal, 60(6), 465, 2007.
 5)Xiaonong CHEN*, Zaiqian QI, Huahua MAO et al, “Chromatographic Membranes from Filter Paper Grafted with Amphiphilic Polymers: Preparation and Protein Separation”(invited presentation), 2nd ISIMMM, 2007, 10, 24-28, Beijing, China.
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65楼2009-01-09 18:13:03
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dgh1516

铁杆木虫 (著名写手)
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zhangwj(金币+6,VIP+0):谢谢分享!
Group Name: 中国科学院上海硅酸盐研究所 生物纳米技术研究课题组
Group Leader:朱英杰

Affiliation:中国科学院上海硅酸盐研究所生物材料研究中心

Research Interest:
主要研究方向:  
1. 纳米生物材料及其复合材料的制备、自组装和性能
2. 微波辅助快速制备低维及复合纳米材料

Representative Publication:
1. Ming-Yan Ma, Ying-Jie Zhu*, Liang Li, Shao-Wen Cao
Nanostructured Porous Hollow Ellipsoidal Capsules of Hydroxyapatite and Calcium Silicate: Preparation and Application in Drug Delivery
Journal of Materials Chemistry, 18, 2722-2727 (2008). (2007年影响因子4.339)
2. Shao-Wen Cao, Ying-Jie Zhu,*, Ming-Yan Ma, Liang Li, Ling Zhang
Hierarchically Nanostructured Magnetic Hollow Spheres of Fe3O4 and γ-Fe2O3: Preparation and Potential Application in Drug Delivery.
The Journal of Physical Chemistry C, 112, 1851-1856 (2008).
3. Rui-Juan Qi, Ying-Jie Zhu*
Microwave-assisted Synthesis of Calcium Carbonate (Vaterite) of Various Morphologies in Water-Ethylene Glycol Mixed Solvents
The Journal of Physical Chemistry B, 110, 8302-8306 (2006). (2007年影响因子4.086)

http://www.sic.ac.cn/selfweb/ketizu/zhuyingjie/fblw.htm
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66楼2009-01-11 10:57:19
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tfh0011

金虫 (正式写手)

高长有

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zhangwj(金币+5,VIP+0):谢谢共享!
zhangwj(金币+3,VIP+0):征集悬赏追加奖!
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 ]
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67楼2009-01-13 00:14:59
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hannah8668

金虫 (初入文坛)
★ ★ ★ ★
zhangwj(金币+4,VIP+0):谢谢共享!
Group Name:
工程合金部

Group Leader:
杨锐     郝玉琳

Affiliation:
中国科学院金属研究所

Research Interest:
主要从事低模量生物医用钛合金材料的研究、开发和应用


跟很多大医院都有合作,在国内做的很不错
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68楼2009-01-13 14:41:42
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pan2004

银虫 (小有名气)

★★★★★ 五星级,优秀推荐

★ ★ ★ ★
zhangwj(金币+4,VIP+0):谢谢分享~~请按顶楼要求补齐信息,然后pm我有追加奖励!
Group Name:
南开大学生命科学学院
Group Leader:
中心主任:孔德领
前主任:俞耀庭

Affiliation:
依托于南开大学

Research Interest:
主要从事血液净化吸附材料研究

1919年南开大学创建伊始,即设有生物学门。1922年,南开大学正式建立生物学系,毕业于哥伦比亚大学的应尚德教授任系主任。抗战期间,南开大学奉命南迁,与北京大学、清华大学组成西南联合大学,生物学系在战火纷飞的年代艰苦创业,继火传薪。抗战胜利后,生物学系延聘名师,汇聚群英,著名学者、教授相继来南开任教,使南开大学生物学系享誉海内外。改革开放以来,南开生物学系焕发出勃然生机。1993年6月,在生物学系的基础上联合分子生物学研究所,组建成立生命科学学院,迎来了创新发展的又一次机遇。
    开大学生物学科具有80余年的悠久历史,学院现有教授51人,包括中科院院士1名、教育部长江学者特聘教授4名、国家杰出青年基金获得者8名、教育部新世纪和跨世纪人才11名、南开大学特聘教授19名;两个国家重点学科(微生物学和动物学),3个省部级重点实验室,两个省部级工程研究中心;即将投入使用的生命科学大楼将拥有国际一流的研究设施,包括动物转基因平台、蛋白质科学研究平台、细胞分离(流式细胞仪)及细胞成像平台、植物学研究平台等,可以为研究人员提供一流的实验条件和科研环境。天津滨海新区开发开放被纳入国家战略以及国际生物医药联合研究院的建立为南开大学生命科学的大发展提供了巨大的机遇。
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69楼2009-01-14 10:58:42
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AFM

木虫 (正式写手)
★ ★ ★ ★ ★
zhangwj(金币+5,VIP+0):谢谢分享!
Group Name: 生物医用高分子材料研究室

Group Leader:袁直 教授

Affiliation:南开大学高分子化学研究所

Research Interest:血液接触材料、肝靶向药物载体

Research Highlight:袁直教授师从我国著名的“离子交换树脂之父”——何炳林院士,多年来一直从事生物医用材料方面的研究,获得多项原创性研究成果。目前袁直教授正在研究的方向有:(1)高选择性吸附分离生物活性物质的功能高分子的设计及吸附作用机制的研究(获国家自然科学基金重点项目及面上项目支持)(2)甘草次酸受体介导的肝靶向给药系统的设计及制备(获国家自然科学基金面上项目及天津自然科学基金重点项目支持);(3)诱导抗凝血生物化表面的设计和构建(973子课题)。

袁直教授先后主持了“973”子课题、教育部跨世纪优秀青年基金、国家自然科学基金重点项目及面上项目、博士点基金以及天津市科学基金重点项目等多项基金。现任国家基金委材料学部及化学学部评审委员,天津市科技进步奖评审专家。中国生物医学工程学会生物材料分会理事,天津市生物医学工程学会理事,《高分子学报》编委,《离子交换与吸附》副主编。

袁直教授先后在Biomaterials、Tissue Engineering等国内外SCI期刊上发表学术论文100余篇,并获中国发明专利5项。袁直教授曾获年中国化学会青年化学奖(个人奖);天津市第三届青年科技奖(独立获奖);1997年教育部科技进步三等奖;杜邦科技创新奖;全国先进女职工称号等多项奖励。

Representative Publication: (不多于5篇,包括专利)
1. Zhi Yuan*, Mei Yu, Jihong Li, Guanghui Hou, Huiyan Wang, Endotoxin adsorbent using dimethylamine ligands, Biomaterials, 2005,26(15):2741-2747
2. Guohua Li, Jihong Li, Wei Wang, MeiYang,Yuanwei Zhang, Pingchuan Sun, Zhi Yuan*, Binglin H, Yaoting Yu,Adsorption mechanism at molecular level between polymers and uremic octapeptide by 2D 1H NMR technique,Biomacromolecules,2006,7(6):1811-1818
3. Liang Wang, Xiaohua Jia, Zhi Yuan*, Synthesis and characterization of novel functionalized polyesters with pendent hydroxyl arms, Polymer,2006,47:6978-6985.
4.  Wei Wang, Yuan Liu, Jun Wang, Xiaohua Jia, Liang Wang, Zhi Yuan*, Shiming Tang, Min Liu, Hua Tang, Yaoting Yu, A Novel Copolymer Poly(lactide-co-β-malic acid) with Extended Carboxyl Arms Offering Better Cell Affinity and Hema-compatibility for Blood Vessel Engineering,Tissue Engeering,2009,15(1): 65-73
5. 袁直,查瑞涛,杜田, 赵建新, 纳米肝靶向生物降解药物载体材料的制备方法,中国发明专利,ZL 200510015172.7
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70楼2009-01-15 16:32:05
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rosalind

银虫 (初入文坛)

zhangwj(金币+1,VIP+0):欢迎新虫,曹老师已经在“wanted list”里面了,你要是了解可以介绍一下,就在本帖编辑即可!
有机所曹阿民老师貌似做的不多呀
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71楼2009-01-15 16:53:03
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xnjtu

铜虫 (初入文坛)

还有很多的啊

★ ★
zhangwj(金币+2,VIP+0):谢谢新虫,常江和张兴栋老师都已经有介绍,如果认为不全可以补充,其余两位还没有,若按顶楼要求介绍会有追加奖励!
西南交通大学,材料先进技术教育部重点实验室,翁杰教授,硬组织修复及药物释放方向;
中科院上海硅酸盐研究所,常江教授;
四川大学,张兴栋院士,硬组织修复材料方向;
中科院成都有机化学分院,邓正华研究员,药物控释生物材料;
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72楼2009-01-16 10:51:59
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fhzfhz2006

木虫 (正式写手)

56楼补充

★ ★
zhangwj(金币+2):可以在此帖基础上按照顶楼的要求编辑完整,还会有金币奖励!新春快乐~~ 1-19 13:09
天津大学 的 成国祥  8 错的

成国祥  1965年生,河南省焦作市人。天津大学材料学院高分子材料系教授、博士生导师。现任天津大学材料科学与工程学院院长;兼中国机械工程学会材料分会高分子材料专业委员会委员;中国海洋学会海洋生物工程专业委员会常务委员;中国复合材料学会理事;中国仪表材料学会理事;天津市化工学会理事;天津市青年科技工作者协会执委会秘书长;天津大学纳米材料科学与工程研究中心副主任;南开大学生物活性材料教育部重点实验室学术委员会副主任;《热固性树脂》编委等。
   从事专业:高分子材料;主要研究方向:纳米生物材料、功能/智能高分子材料。主要科研成果:“生物可降解组织工程支架材料的研究”,“乳液模板法制备多孔材料的研究”等。在国内外学术期刊上发表论文90余篇,其中30余篇被SCI,EI收录;申请专利5项。编有《智能材料》、《功能高分子材料》等专著,译著有《塑料添加剂》等
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73楼2009-01-19 11:11:41
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yinyx71

木虫 (小有名气)
★ ★ ★ ★ ★ ★
zhangwj(金币+6,VIP+0):谢谢分享 2-4 23:28
Group Name: 清华大学材料院生物材料室
Group Leader: 崔福斋
Affiliation: 清华大学材料系
Research Interest: 医用生物材料:骨移植材料、可降解支架材料
                       组织工程:  骨组织工程、血管组织工程、神经组织工程
Research Highlight: 1,纳米磷酸钙/胶原基骨移植材料:国家863,(2002-2004);
                        2,神经修复材料: 973项目(2005-2008)3. 材料表面改性
Representative Publication:
1. Cui FZ, Brauer G, Wang KM, et al.
Proceedings of the fifth Asian-European International Conference on Plasma Surface Engineering (AEPSE 2005), Qingdao, China, September 12-16, 2005 - Preface
SURFACE & COATINGS TECHNOLOGY 201 (9-11): 4805-4805 FEB 26 2007
2. Huang YS, Cui FZ
Effect of complexing agent on the morphology and microstructure of electroless deposited Ni-P alloy
SURFACE & COATINGS TECHNOLOGY 201 (9-11): 5416-5418 FEB 26 2007
3. Ma J, Cui FZ, Liu BF, et al.
Atomic force and confocal microscopy for the study of cortical cells cultured on silicon wafers
JOURNAL OF MATERIALS SCIENCE-MATERIALS IN MEDICINE 18 (5): 851-856 MAY 2007
4. Ge J, Cui FZ, Wang XM, et al.
New evidence of surface mineralization of collagen fibrils in wild type zebrafish skeleton by AFM and TEM
MATERIALS SCIENCE & ENGINEERING C-BIOMIMETIC AND SUPRAMOLECULAR SYSTEMS 27 (1): 46-50 JAN 2007
5. Meng B, Zhang Y, Cui FZ
Study of using chitosan fiber to reinforce PSTG
SCIENCE AND ENGINEERING OF COMPOSITE MATERIALS 13 (2): 115-120 2006
Webpage: http://www.mse.tsinghua.edu.cn/mse/faculty/personal.php?ID=10
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74楼2009-02-04 19:54:06
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飞雪龙龙


★ ★ ★
zhangwj(金币+3,VIP+0):谢谢共享! 2-7 23:36
Group Name: 先进弹性体材料重点实验室
Group Leader:张立群

Affiliation:北京化工大学
Research Interest:
主要研究方向:  
弹性体的新型增强技术与理论;特种弹性体复合材料的制备与理论;功能性弹性体复合材料的制备与理论;基于生物质和具有生物功能的弹性体材料;绿色弹性体材料的制备技术与科学;高性能弹性体制品的设计与制造
Representative Publication:
1 Modification of starch for high performance elastomer. Polymer, 2006, 47(11): 3896-3903. Qing Qi, You-Ping Wu, Ming Tian, Gui-Hua Liang, Yong Ma, Li-Qun Zhang*.

highlights:张立群老师是国内橡胶研究的领先人物,近几年开始生物弹性体的研究工作,并不断有新的研究成果出现。
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75楼2009-02-07 23:05:49
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飞雪龙龙


★ ★ ★ ★ ★ ★
zhangwj(金币+6,VIP+0):谢谢共享! 2-7 23:36
Group Name: 光化学基础与应用实验室
Group Leader:聂俊

Affiliation:北京化工大学
Research Interest:
主要研究方向:  
光聚合新材料与新技术
光聚合生物材料,包括牙科材料、骨科材料、药物控释
天然高分子材料改性与应用
电纺丝制备纳微米纤维及微球及其应用
超临界及超低温光聚合
光聚合纳米无机-有机杂化材料


Representative Publication:
1Lu H., Stansbury J.W., Nie J., Berchtold K.A., Bowman C.N., Development of Highly-reactive Mono-(meth)acrylates as Reactive Diluents for Dimethacrylate Based Dental Resin Systems. Biomaterials, 26, 1329–1336, 2005
2Eric R. Beckel, Jun Nie, Jeffrey W. Stansbury, and Christopher N. Bowman. Effect of Aryl Substituents on the Reactivity of Phenyl Carbamate Acrylate Monomers. Macromolecules 37, 4062-4069 2004
3Kathryn A. Berchtold, Jun Nie, Jeffrey W. Stansbury, Bilge Hacioglu, Eric R. Beckel, and Christopher N. Bowman, Novel Monovinyl Methacrylic Monomers Containing Secondary Functionality for Ultrarapid Polymerization: Steady-State Evaluation Macromolecules 37, 3165-3179 2004
4Nie J, Bowman CN. Synthesis and photopolymerization of N,N-dimethyl-di(methacryloxy ethyl)-1,6-hexanediamine as a polymerizable amine coinitiator for dental restorations. Biomaterials. 23(4), p1221-1226, 2002.
5Nie J, Lovell LG, Bowman CN. Synthesis and characterization of N-isopropyl-N- methacryloxyethyl methacrylamide as a possible dental resin. Biomaterials. 22 (6): p535-540, 2001.

highlights:参编《Photochemistry and UV Curing: New trends》2006,373-383, ISBN:81-308-0014-4, Editor: J.P.Fouassier
发表论文60余篇,其中SCI30篇
1994: 《含氧光敏引发聚合体系》中科院自然科学奖三等奖
1998: 《耐温抗盐聚合物的研制》国家教委科技进步奖三等奖

研究项目 2003-2004: 973项目,《生物医用材料的基本科学问题的研究》
      2005-2007: 国家自然基金委50473024《新型光固化牙科复合充填树脂》
      2005-2006: 国家教育部 《齿科修复用复合填充树脂》
2005-2006: 湖北省科技厅2004AA303B03《新型牙科充填用复合树脂的研制》
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76楼2009-02-07 23:12:49
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rainylqk

至尊木虫 (著名写手)
★ ★ ★ ★ ★ ★
zhangwj(金币+6,VIP+0):谢谢分享! 2-9 18:36
浙江大学生物医用材料研究所 计剑 教授

计剑  教授,博导  男  1969.11.08出生   

1992年           开始从事高分子生物医用功能材料的研究
1997.8            浙江大学高分子系获高分子化学和物理博士学位
2000.12-2004.12  浙江大学高分子复合材料研究所副教授
2004.12-          浙江大学浙江大学高分子复合材料研究所教授
2005.9~2005.12  德国海德堡大学高级访问学者
获奖及荣誉:
2000年    第六届世界生物材料大会杰出博士后旅行奖。
2002年    第十七届欧洲生物材料大会优秀青年科学家奖
2004年       国家教育部霍英东基金优选资助项目
2005年     国家教育部“新世纪优秀人才支持计划


主要从事生物医用材料的应用基础研究,在生命体系与材料界面的生物相容性和生物功能性方面开展了系统深入的研究,形成了采用过程仿生的自组装行为制备具有结构和功能仿生的新型生物材料的研究特色,并将该原理应用到现代介入医用材料和组织工程材料的设计和研发中,是我国具有自主知识产权的心动系列细胞膜仿生药物涂层支架的主要发明人。
近年来在包括Advanced Materials, Biomaterials, Biomacromolecules等核心期刊发表SCI, EI收录论文66篇,作为第一、二作者共发表SCI, EI收录论文49篇,影响因子大于3.0的26篇,获国家发明专利6项。先后承担国家自然科学基金3项,国家高技术研究发展计划(863计划) 2项,国家重大基础研究计划(973)2项,教育部霍英东基金1项,浙江省自然科学基金重点项目和面上项目各1项。并通过中国科技部中法和中葡国际合作项目建立了多个实质性国际协作关系。
在目前的研究中,采用现代微纳仿生技术和超分子组装技术结合,重点致力于自组装仿生界面和纳米生物医用材料的研究。主体研究内容包括:
1)心血管医用材料和微创介入医用材料
2)医用材料的组织工程化设计
3)生物治疗用智能纳米微载体
4)新型固相基因传递体系的研究
5)仿生双亲聚合物的溶液和界面组装
6)层层组装构建生物相容性和生物功能性纳米层状超薄膜的研究

1.        Li XL, Ji J, Wang XL, et al.,Stability and drug loading of spontaneous vesicles of comb-like PEG derivates,  Macro. Rapid. Comm. 28 (5): 660-665 MAR 1 2007
2.        孙巍,唐越超,计剑, 以Pluronicsâ为第二组分制备聚乳酸蜂窝状多孔薄膜的研究, 高等学校化学学报, 2007,28(7),1388-1392
3.        柯诗剑,计剑*, 万古霉素修饰磁性纳米粒子的制备及其细菌分离功能, 高等学校化学学报, 2007,28(1),26-28
4.        徐建平, 陈伟东,计剑*,沈家骢, 新型仿生聚合物胶束用于纳米药物载体的研究, 高等学校化学学报, 2007,28(2),394-396
5.        Qingshan Wei, Jian Ji*, Jinhong Fu, Jiacong Shen. Norvancomycin-capped silver nanoparticles: Synthesis and antibacterial activities against E-coli, Sci. China Ser. B-Chem., 2007, 50: 418-424
6.        吴楠, 金桥, 计剑, Fe3O4纳米粒子的磷酸胆碱仿细胞膜修饰, 材料研究学报, 2007, 21(6), 589-592
7.        Ji, J*; Fu, JH; Shen JC*;  Fabrication of a Superhydrophobic Surface from the Amplified Exponential Growth of a Multilayer, Advanced Materials, 18:1441-1444, 2006
8.        Fu JH, Ji J*, Fan DZ, Shen JC, Construction of antibacterial multilayer films containing nanosilver via layer-by-layer assembly of heparin and chitosan-silver ions complex, JOURNAL OF BIOMEDICAL MATERIALS RESEARCH PART A 79A (3): 665-674 DEC 1 2006

ms2008年还有好几篇langmuir
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77楼2009-02-09 18:06:01
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christopher

金虫 (小有名气)

★★★★★ 五星级,优秀推荐

David Kaplan, Tufts University
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78楼2009-02-17 04:39:53
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christopher

金虫 (小有名气)
★ ★
zhangwj(金币+2,VIP+0):谢谢提供信息,按照顶楼要求在整理有追加奖励!多谢支持! 2-17 23:30
David Kaplan, Tufts University
http://ase.tufts.edu/biomedical/faculty-staff/kaplan.asp
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79楼2009-02-17 04:43:34
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cambridge907

金虫 (小有名气)
★ ★ ★
zhangwj(金币+3,VIP+0):谢谢提供信息,新虫多给一个金币!按照顶楼要求整理会有追加奖励! 2-17 23:32
华中科技大学 张胜明、万影、王深琪,三个教授组成的领导团队......
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80楼2009-02-17 19:39:18
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hitbulletine

铜虫 (小有名气)
看见自己老板了,真汗自己,自己有好多好多有关自组装方面的教授的主页,不知道是一个一个发还是全部在一个里面
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81楼2009-02-17 22:23:01
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hitbulletine

铜虫 (小有名气)
★ ★ ★
zhangwj(金币+3,VIP+0):谢谢提供信息!按照顶楼要求整理,整理多少奖励多少!最好在现在跟帖上编辑。 2-17 23:33
先删后改

[ Last edited by hitbulletine on 2009-2-19 at 18:52 ]
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82楼2009-02-17 22:25:11
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hitbulletine

铜虫 (小有名气)

zhangwj(金币+1,VIP+0):不生气,谢谢支持,希望您抽点时间整理,这样好让我奖励!呵呵~~ 2-17 23:35
zhangwj(金币+0,VIP+0):你们两个要注意“和谐”,请两位仔细的读顶楼的要求,贵精不在多!希望你们能够付出一定的劳动,按顶楼整理资料,希望看到把你们争论的帖子全部编辑成介绍帖!谢谢合作! 2-18 23:49
http://www.schaaf.physik.uni-goettingen.de/psengl/index.htm
http://web.mit.edu/dmse/rubner/
一般看见网址就知道是哪个大牛的主页了,在这里就不一一详述望斑竹别生气,呵呵
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83楼2009-02-17 22:26:00
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ywliustc

金虫 (小有名气)
我也来谈几个大牛吧

frechet JMJ   UCberkery  (One of the fathers of dendrimer,主要的工作是合成,不过也做一部分dendrimer based drug delivrey system,JACS的副主编)
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84楼2009-02-18 06:46:46
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ywliustc

金虫 (小有名气)

zhangwj(金币+1,VIP+0):你们两个要注意“和谐”,请两位仔细的读顶楼的要求,贵精不在多!希望你们能够付出一定的劳动,按顶楼整理资料,希望看到把你们争论的帖子全部编辑成介绍帖!谢谢合作! 2-18 23:48
我也来谈几个大牛吧

frechet JMJ   UCberkery  (One of the fathers of dendrimer,主要的工作是合成,不过也做一部分dendrimer based drug delivrey system ACS的副主编)

Francis C. Szoka UCSF(他自己有很多的工作,也和frechet合作做一些dendrimer的开发)

Joseph P. Kennedy  akron (阳离子聚合的奠基人之一,他自己开发了很多橡胶类似材料,都可以做皮肤的替代物)

Judit Puskas   akron(Kennedy 的postdoc,现在接了Kennedy 的班,继续搞这个)

James baker Jr.   Umich (在umich建立了一个中心,有十几个正教授,专门做dendrimer的开发,他有个学生叫做xiangyang shi,今年好像回东华大学做教授了)

Kam W Leong   Duke (之前有人提到的中国科大的王均是他的学生,当然王也是卓润喜的学生,超级大牛,Leong 有很多学生都在美国和新家坡拿了教职)

Fan Yuan   Duke(基因转染界小有名气,他有不少学生也在美国拿了教职,比较好的有UCONN chemical engineering的 Yong wang)

Younan xia WUSTl( 他从UW迁到WUSTL的BME后已经全力集中开发他之前和成的nano cage了,最近发了几个nano letter的片生物的文章)

先说这么多吧,等下再来补充
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85楼2009-02-18 06:55:41
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hitbulletine

铜虫 (小有名气)
http://www.chem.fsu.edu/multilayers/Links_to_research_groups.htm
这个页面里有好多牛人的链接

[ Last edited by hitbulletine on 2009-2-19 at 18:51 ]
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86楼2009-02-18 13:33:55
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ywliustc

金虫 (小有名气)
-=应发帖版友要求,编辑删除=-

[ Last edited by zhangwj on 2009-2-19 at 23:41 ]
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87楼2009-02-18 14:31:03
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ywliustc

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-=版主zhangwj编辑删除=-

[ Last edited by zhangwj on 2009-2-19 at 23:52 ]
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88楼2009-02-18 14:33:17
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ywliustc

金虫 (小有名气)
-=版主zhangwj编辑删除=-

[ Last edited by zhangwj on 2009-2-19 at 23:52 ]
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89楼2009-02-18 14:37:03
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ywliustc

金虫 (小有名气)
-=版主zhangwj编辑删除=-

[ Last edited by zhangwj on 2009-2-19 at 23:52 ]
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90楼2009-02-18 14:38:04
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hitbulletine

铜虫 (小有名气)
-=版主zhangwj编辑删除=-

[ Last edited by zhangwj on 2009-2-19 at 23:53 ]
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91楼2009-02-18 14:38:41
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hitbulletine

铜虫 (小有名气)
-=版主zhangwj编辑删除=-

[ Last edited by zhangwj on 2009-2-19 at 23:53 ]
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92楼2009-02-18 14:39:56
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ywliustc

金虫 (小有名气)
-=版主zhangwj编辑删除=-

[ Last edited by zhangwj on 2009-2-19 at 23:53 ]
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93楼2009-02-18 14:53:58
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hitbulletine

铜虫 (小有名气)
-=版主zhangwj编辑删除=-

[ Last edited by zhangwj on 2009-2-19 at 23:53 ]
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94楼2009-02-18 15:41:19
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ywliustc

金虫 (小有名气)

zhangwj(金币+1,VIP+0):谢谢您对本版的支持,同时钦佩您的认真态度,欢迎常来生物材料版! 2-19 23:43
-=编辑与本帖主题不相关跟帖=-

[ Last edited by zhangwj on 2009-2-23 at 00:06 ]
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95楼2009-02-19 01:48:03
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hitbulletine

铜虫 (小有名气)
-=编辑与本帖主题不相关跟帖=-

[ Last edited by zhangwj on 2009-3-25 at 16:26 ]
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96楼2009-02-20 12:28:50
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wang_cf

铜虫 (小有名气)
★ ★ ★ ★ ★
zhangwj(金币+3,VIP+0):新虫多送一个~~请按照顶楼要求补齐,会有追加奖励!谢谢您对生物材料版的支持! 2-23 18:46
zhangwj(金币+2,VIP+0):谢谢! 2-26 23:37
Group name: Centrue if Drug Research, Faculty of pharmacy,
Group Leader: Arto Urtti
Affiliation: FInland, University of Helsinki
Research Interest:  Drug Delivery and Nanotechnology
Research Highlight: Drug and gene delivery, Nanotechnology
Publication:
1. Aaltonen, J., Heinänen, P., Peltonen, L., Kortejärvi, H., Tanninen, V.P., Christiansen, L., Hirvonen, J., Yliruusi, J., Rantanen, J.: In-situ measurement of solvent-mediated phase transformations during dissolution testing (2006) Journal of Pharmaceutical Sciences, 95 (12), pp. 2730-2737.

2. Aaltonen, J., Kogermann, K., Strachan, C.J., Rantanen, J.: In-line monitoring of solid-state transitions during fluidization (2006) Chemical Engineering Science, 62 (1-2), pp. 408-415.

3. Alvesalo, J.K.O., Siiskonen, A., Vainio, M.J., Tammela, P.S.M., Vuorela, P.M. : Similarity based virtual screening: A tool for targeted library design (2006)  Journal of Medicinal Chemistry , 49 (7), pp. 2353-2356.  

4. Alvesalo, J., Vuorela, H., Tammela, P., Leinonen, M., Saikku, P., Vuorela, P. : Inhibitory effect of dietary phenolic compounds on Chlamydia pneumoniae in cell cultures (2006)  Biochemical Pharmacology , 71 (6), pp. 735-741.  


Webpage: http://www.ddtc.helsinki.fi/personnel.htm

[ Last edited by wang_cf on 2009-2-24 at 12:30 ]
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97楼2009-02-23 15:58:16
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saltlight

木虫 (正式写手)

he Stupp laboratory, Northwestern University

★ ★ ★ ★ ★ ★ ★
zhangwj(金币+7,VIP+0):谢谢分享! 2-26 23:37
Group Name:
The Stupp laboratory
Group Leader:
Samuel I. Stupp
Affiliation:
Institute for BioNanotechnology in Medicine, Northwestern University
Research Interest:
cell interactions with a variety of self-assembled structures to design functional materials for regenerative medicine; regenerative scaffolds for wound healing and repair of skeletal, neural and cardiac tissues.

Research Highlight:
The biomaterials subgroup focuses on cell interactions with a variety of self-assembled structures to design functional materials for regenerative medicine. These structures vary from the nanoscale (e.g., peptide amphiphile nanofibers) to the microscale (e.g., porous biodegradable scaffolds).  Projects are underway to design synthetic biomaterials that interact in specific, controllable ways with cells and proteins.
Every project in this subgroup combines the tools of cell biology, chemistry, and materials science to examine some aspect of cellular interaction with a defined material. The cells vary from primary mesenchymal and nerve cells, isolated within our own labs, to well-established infinite cell lines.  These cells are then allowed to interact with a variety of self-assembling materials, to determine effects on cell adhesion, phenotype, morphology, metabolism, toxicity, and/or gene expression.  Translational and pre-clinical studies are underway in collaboration with colleagues at Northwestern's Feinberg School of Medicine, the Institute for BioNanotechnology in Medicine, and elsewhere to image, track and use these materials in vivo as regenerative scaffolds for wound healing and repair of skeletal, neural and cardiac tissues.

Representative Publication: (不多于5篇,包括专利)
Spoerke, E. D.; Anthony, S. G.; Stupp, S. I.; “Enzyme Directed Templating of Artificial Bone Mineral” Advanced Materials, 21(4), (2009) 425-430.
Bansiddhi, A.; Sargeant, T. D.; Stupp, S. I.; Dunand, D. C. “Porous NiTi for Bone Implants: A Review” Acta Biomaterialia, 4(4), (2008) 773-782
Capito, R.; Azevedo, H.; Velichko, Y. R., Mata, A.; Stupp, S. I. “Self-Assembly of Large and Small Molecules Into Hierarchically Ordered Sacs and Membranes” Science, 319, (2008) 1812-1816.
Palmer, L. C.; Newcomb, C.; Kaltz, S. R.; Spoerke, E. D.; Stupp, S. I.; “Biomimetic Systems for Hydroxyapatite Mineralization Inspired By Bone and Enamel” Chemical Reviews, 108 (11), (2008) 4754-4783.
Webpage:
http://stupp.northwestern.edu/research/biomaterials.html
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98楼2009-02-26 04:39:44
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saltlight

木虫 (正式写手)

The Rater laboratory

★ ★ ★ ★ ★ ★ ★
zhangwj(金币+7,VIP+0):谢谢分享! 2-27 10:53
Group Name:
The Rater laboratory
Group Leader:
Buddy Ratner
Affiliation:
Univ of Washington, Chemical Engineering.
Research Interest:
•        Synthesis and characterization of polymeric biomaterials
•        Surface analysis by ESCA, SIMS, STM, FTIR-ATR, AFM
•        Plasma deposition of thin films
•        Tissue Engineering
•        Scaffolds

Research Highlight:
They engineer new biomaterial surfaces using a wide range of technologies. For example, radio-frequency plasma deposition (a method borrowed from microelectronics) can readily place interesting thin films on existing medical device surfaces. These films can be used in the precision immobilization of key signaling molecules. They also synthesize new polymers that can be biostable, environmentally responsive, biodegradable and/or porous (i.e., scaffolds). The new surfaces and materials made in Rater laboratory are studied in contact with proteins, blood, living cells and tissues (in vivo and in vitro).

Recently, there has been considerable interest in tissue engineering in the Rater laboratory. Tissue engineering exploits all the above principles in the context of tissue and organ reconstruction and regeneration. Specific tissue engineering projects in the Ratner lab aim toward heart muscle, esophagus, bone, cartilage, bladder, vagina and cornea. A new project seeks to model cancer tumor microenvironments using tissue engineering ideas.

Biomaterials/biocompatibility projects ongoing in his laboratory include: drug delivery devices, porous scaffolds, tissue engineering, angiogenesis, healing in soft tissue, bioelectrode performance, bioattachment, biorecognition, polyurethanes,  hydrogels,  biodegradable polymers, non-fouling surfaces, blood-contacting materials, and bacterial biofilms/infection

Biomaterial surfaces are the only part of a biomaterial or medical device that is seen by the body. They adapt methods developed in the physics and microelectronics communities to problems in biology and medicine. They use electron spectroscopy for chemical analysis (ESCA), secondary ion mass spectrometry (SIMS), infrared spectroscopy, scanning probe microscopies, surface plasmon resonance and sum frequency generation to observe surface structure and biological interactions.


Representative Publication: (不多于5篇,包括专利)
        •  “A Paradigm Shift: Biomaterials that Heal,” B. Ratner, Polymer International, 56:1183–1185, 2007.
•  “Investigation of the Foreign Body Response with an Implanted Biosensor by In Situ Application of Electrical Impedance Spectroscopy,” F.B. Karp, N.A. Bernotski, T.I. Valdes, K.F. Bohringer, B.D.Ratner, IEEE Sensors, 8(1):104–112, 2008.
•  "Biomedical Surface Science: Foundations to Frontiers," D.G. Castner, B.D. Ratner, Surface Science 500, 28–60, 2002.
•  "Development of an electrospray approach to deposit complex molecules on plasma modified surfaces," K.J. Kitching, H-N. Lee, W.T. Elam, E.E. Johnston, H. MacGregor, R.J. Miller, F. Turecek, and B.D. Ratner, Review of Scientific Instruments 74(11), 4832–4839, 2003.
•  "Biomaterials: Where We Have Been and Where We Are Going," B.D. Ratner and S.J. Bryant, Annual Reviews of Biomedical Engineering, Vol. 6:41–75, 2004.

Webpage:
http://depts.washington.edu/bioe/people/core/ratner/ratner.html
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99楼2009-02-27 06:53:20
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saltlight

木虫 (正式写手)

Biomacromolecular materials group at MIT

★ ★ ★ ★ ★
zhangwj(金币+5,VIP+0):谢谢分享! 2-27 10:53
Group Name:
Biomacromolecular materials group

Group Leader:
Angela Belcher

Affiliation:
MIT, Materials Science and Engineering and Biological Engineering

Research Interest:
biomaterials, biomolecular materials, organic-inorganic interfaces and solid state chemistry

Research Highlight:
The focus of the Biomolecular Materials Group is understanding and using the process by which nature makes materials in order to design novel hybrid organic-inorganic electronic and magnetic materials on new length scales. The group uses these materials in applications as varied as solar cells, batteries, medical diagnostics and basic single molecule interactions related to disease. The research of the lab is highly interdisciplinary and brings together the fields of inorganic chemistry, materials chemistry, biochemistry, molecular biology and electrical engineering.

The current research topics in her research lab include 1) biomimetic synthesis of non
biological inorganic phases with novel electronic and magnetic properties
directed by proteins and synthetic analogs, 2) synthesis and self-assembly
of smart polymers to pattern size restricted metals and semiconductors to
make devices with novel electronic and optical properties on length scales
that surpass current lithographic capabilities, 3) design and synthesis of
biocomposite materials that show exceptional strength and regularity and 4)
surface modification of high surface area inorganic phases applied to high
surface area catalysts, biosensors and environmental remediation.

Representative Publication: (不多于5篇,包括专利)
1. *Sinensky, A. K., Belcher, A. M. “Label-free and High Resolution Protein/DNA Nanoarray Analysis using Kelvin Probe Force Microscopy.” Nature Nanotechnology, 2, 2007, 653-659.
2. *Khalil, A.S., Ferrer, J.M., Brau, R.R., Kottmann, S.T., Noren, C.J.,Lang, M.J., and Belcher, A.M. “Single M13 bacteriophage tethering and stretching.” Proceedings of the National Academy of Sciences, 104 (12), 4892–4897, 2007. (cover)
3. *Chiang, C. Y., Mello, C.M., Gu, J., Silva, E.C.C.M., Van Vliet, K.J., and Belcher, A. M. “Weaving Genetically Engineered Functionality into Mechanically Robust Virus Fibers.” Advanced Materials, 19, 826–832, 2007. (cover)
4. *Nam, K. T., Kim, D. W., Yoo, P. J., Chiang, C. Y., Meethong, N., Hammond, P. T., Chang, Y. M., Belcher, A. M. “Virus Enabled Synthesis and Assembly of Nanowires for Lithium Ion Battery Electrodes,” Science, 312, 885-888, 2006.

5. *Yoo, P. J., Nam, K., Qi, J., Lee, S. K., Park, J., Belcher, A. M., Hammond, P. T., “Spontaneous assembly of viruses on multilayered polymer surfaces,” Nature Materials, 5, 234-240, 2006.

Webpage:
http://belcher10.mit.edu/

[ Last edited by saltlight on 2009-2-27 at 17:24 ]
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