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Group Name:
ÉúÎﻯѧÓ뺣ÑóÉúÎï»îÐÔÎïÖÊÑо¿ÊÒ

Group Leader:
ÖÐÐÄÖ÷ÈΣºÁõÍò˳

Affiliation:
ÒÀÍÐÓÚÖйúº£Ñó´óѧ

Research Interest:
Ö÷Òª´Óʺ£ÑóÉúÎïÒ½ÓòÄÁÏ¡¢º£ÑóÒ©Îï¡¢º£ÑóÉúÎï»îÐÔÎïÖÊÉú»¯ÖÆÆ·µÄÑо¿ºÍ¿ª·¢¡£

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

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1¡¢¹ú¼Ò¡°Ê®Ò»Î塱863ÖصãÏîÄ¿¡°¹¦ÄÜÐԿǾÛÌÇֹѪÐÞ¸´²ÄÁϵIJúÒµ»¯¼¼ÊõÑо¿¡±£¬2007Äꡪ2010Äê¡£
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3¡¢¹ú¼Ò¡°Ê®Î塱863ÏîÄ¿¡°ÐÂÐͼ׿ÇÖÊÑÜÉúÎïÔÚ×éÖ¯¹¤³ÌÖеÄÓ¦ÓÃÑо¿¡±£¬2001Äꡪ2005Äê¡£
4¡¢¹ú¼Ò¡°Ê®Î塱¿Æ¼¼¹¥¹ØÏîÄ¿¡°¿Ç¹ÑÌǵĹæÄ£»¯Éú²ú¼°Ó¦Óÿª·¢Ñо¿¡±£¬2001Äꡪ2003Äê¡£
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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¨C 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£º644-650
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£º1393-1399
15¡¢³ÂÁл¶£¬ÁõÍò˳£¬º«±¦ÇÛ£¬Î»Ïþ¾ê£¬ÑÖÒ¡£½ÇĤÄÚƤϸ°ûÔØÌåĤƬµÄÐÔÖÊÑо¿¼°ÆäÒÆÖ²ÊÔÑé¡£¸ßµÈѧУ»¯Ñ§Ñ§±¨£¬2006£¬27£¨5£©£º880-884   SCIÊÕ¼
16¡¢Î»Ïþ¾ê£¬ÁõÍò˳£¬º«±¦ÇÛ£¬³ÂÁл¶£¬ÑÖÒ¡£½ÇĤÄÚƤϸ°ûÔØÌåµÄÌåÍâÅàÑø¼°ÒÆÖ²µÄÑо¿¡£ÖйúÉúÎïҽѧ¹¤³Ìѧ±¨£¬2006£¬25£¨5£©£º590-595.  EIÊÕ¼
17¡¢Áõ±ù£¬ÁõÍò˳£¬º«±¦ÇÛ.¿Ç¹ÑÌÇ´ÙÒȵºÏ¸°ûÔöÖ³¡¢ÒȵºËØ·ÖÃÚ¼°µ÷½Ú²ÍºóѪÌÇ×÷ÓõÄÑо¿[J]. ͬ¼Ã´óѧѧ±¨.2006,27(6):6¡«11. EIÊÕ¼
18¡¢É£Ç࣬ÁõÍò˳£¬º«±¦Ç۵ȡ£ôȼ׻ù¿Ç¾ÛÌÇîéÑÎÔÚ´óÊóÌåÄÚ·Ö²¼¼°ÅÅйµÄ³õ²½Ñо¿¡£¸ß¼¼ÊõͨѶ£¬2005¡£
19¡¢¡¢É£Ç࣬º«±¦ÇÛ£¬ÁõÍò˳µÈ¡£ôȼ׻ù¿Ç¾ÛÌÇîéÑο¹´óÊóθÀ£Ññ¼°É±ÃðÓÄÃÅÂݸ˾ú×÷ÓõÄÑо¿¡£¸ß¼¼ÊõͨѶ£¬2004¡£
20¡¢³ÂÁл¶£¬ÁõÍò˳£¬º«±¦Ç۵ȡ£ÈýÖÖ½ÇĤÄÚƤϸ°ûÔØÌåĤƬµÄÐÔÖÊÑо¿¡£ÖйúÉúÎïҽѧ¹¤³Ìѧ±¨£¬2005¡£
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Î人Àí¹¤´óѧ ÀîÊÀÆÕ

Group Name:
Î人Àí¹¤´óѧÉúÎï²ÄÁÏÓ빤³ÌÑо¿ÖÐÐÄ

Group Leader:
ÀîÊÀÆÕ

Affiliation:
Î人Àí¹¤´óѧÉúÎï²ÄÁÏÓ빤³ÌÑо¿ÖÐÐÄ

Research Interest:
ÉúÎïÒ½ÓòÄÁϵÄÑо¿Ó뿪·¢

Research Highlight:
È˹¤¹Ç¡¢È˹¤¹Ø½Ú¡¢ÎÞ»úÄÉÃ×Ò©Îï¡¢×éÖ¯¹¤³Ì¡¢Éñ¾­µ¼¹Ü¡¢Ñª¹Ü˨Èû²ÄÁÏ¡¢ÉúÎï´«¸ÐÆ÷¡¢ÉúÎïÒ½ÓòÄÁÏÓëϸ°û/×éÖ¯µÄ½çÃæÏ໥×÷Óá­¡­
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Webpage:
http://public.whut.edu.cn/shwzhx/
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52Â¥2008-12-20 18:40:18
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may673

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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: ºÜ¶à£¬¿Éä¯ÀÀÆäÖ÷Ò³
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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53Â¥2008-12-26 09:26:58
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Group Name:
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Group Leader:
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Affiliation:
Ç廪´óѧ£¬ÉÇÍ·´óѧ

Research Interest:
Ö÷Òª´ÓÊÂPHAs¿É½µ½âÉúÎï²ÄÁϵĿª·¢£¬»ý¼«²ÎÓëÂÌÉ«²ÄÁϵÄÍƹ㣬°üÀ¨08±±¾©°ÂÔËÒ»´ÎÐԿɽµ½âËÜÁϵļì²â¹¤×÷¡£
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Research Highlight:
http://microbes.biosci.tsinghua.edu.cn:8002/ch.htm
http://mrc.stu.edu.cn/Chinese/Intro/Intro.htm

ÔÚ¹ú¼ÊѧÊõÆÚ¿¯ÉϹ²·¢±íÓйØÉúÎï²ÄÁÏPHAµÄÂÛÎÄ120¶àƪ£¬±»ÒýÓÃһǧÈý°Ù¶à´Î¡£»ñµÃÊÚȨרÀû19Ï20¶à¸ö¹«¿ª×¨ÀûÉêÇë¡£ÏÖµ£Èιú¼ÊѧÊõÆÚ¿¯¡¶Applied Microbiology and Biotechnology¡·¡¢¡¶Biomaterials¡·¡¢¡¶Artificial Cells, Blood Substitutes and Biotechnology¡·ºÍ¡¶Asia Pacific Biotech News¡·±àί£¬Í¬Ê±µ£ÈιúÄÚºËÐÄѧÊõÆÚ¿¯¡¶ÉúÎ﹤³Ìѧ±¨¡·¸±Ö÷±àÒÔ¼°¡¶ÉúÎï¼Ó¹¤¹ý³Ì¡·¡¢¡¶¸ß·Ö×Óѧ±¨¡·ºÍ¡¶ÉúÎï¼¼Êõ²úÒµ¡·±àί¡£µ£ÈÎÁªºÏ¹ú¹¤Òµ·¢Õ¹Ê ¹ú¼Ê¸ß¿Æ¼¼ÖÐÐÄ(ICS-UNIDO)µÄÓ¦Óû¯Ñ§×¨¼Ò×éÉúÎï¿É½µ½â²ÄÁÏίԱºÍÖйúÉúÎ﹤³Ìѧ»á³£ÎñÀíÊ¡£³Â½ÌÊÚ¶à´Î×éÖ¯ÁËÓйØÉúÎïвÄÁÏPHAµÄ¹ú¼ÊѧÊõ»áÒ飬²¢ÔÚ¹ú¼ÊÏà¹ØѧÊõ»áÒéÉÏÓ¦Ñû×öÁ˶à´Î´ó»áºÍÌØÑû±¨¸æ¡£Ö÷³ÖÁ˶àÏî¹ú¼ÒÉúÎïËÜÁÏPHAÖØ´óµÄ»ù´¡Ñо¿ºÍ²úÒµ»¯ÏîÄ¿¡£ÔÚ¹ýÈ¥µÄÎåÄêÀ³Â½ÌÊÚ»ñµÃµÄÈÙÓþ°üÀ¨£º½ÌÓý²¿³¤½­Ñ§ÕßÌØƸ½ÌÊÚ¡¢µÚ°Ë½ìÖйúÇàÄê¿Æ¼¼½±¡¢×ÔÈ»¿Æѧ»ù½ðί¹ú¼Ò½Ü³öÇàÄꡢŦÂ×±¤¹ú¼Ê·¢Ã÷½±¡¢¹ú¼Ò·¢Ã÷¶þµÈ½±(ÅÅÃûµÚÒ»)£¬Ã©ÒÔÉý¿Æ¼¼½±¡¢½ÌÓý²¿¸ßУÇàÄê½Ìʦ½±µÈ¡£ÔøÁ¬Ðø6Äê»ñµÃÇ廪´óѧѧÉú¡°Á¼Ê¦ÒæÓÑ¡±µÄ¹âÈٳƺš£

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 ÌìÈ»ÉúÎïÖʹ¤³Ì²ÄÁÏ in ¡¶ÖйúвÄÁϲúÒµ·¢Õ¹±¨¸æ 2005 ¡· .( China Material Research Society). (Submitted in 2005)

7. Frontier and Progress of Polymer Research ¡¶¸ß·Ö×Ó¿ÆѧǰÑØÓë½øÕ¹¡· (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. Ò»ÖÖ·ÖÀëϸ°ûÄÚ¾ÛôÇ»ùÖ¬·¾Ëáõ¥µÄ·½·¨ . 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. Ò»¸öÓ÷ÏÌÇÃÛΪԭÁϸßЧ·¢½ÍÉú²ú¾Æ¾«µÄм¼Êõ . 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. Ò»ÖÖÉúÎï²ÄÁϺÍΪ×éÖ¯¹¤³Ì²ÄÁÏ . 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. ²É ÓÃÖØ×é´ó³¦¸Ë¾úÉú²úÊÖÐÔ 3-(R) £­ôÇ»ù¶¡ËáµÄ·½·¨ . Chinese Patent Application no. ZL 01118668.2 (2004)

5. Chen GQ , ZHANG J, WU Q, CHEN JC An Aeromonas hydrophila Strain and Its Application. Ò»ÖêÊÈË®Æøµ¥°û¾ú¼°ÆäÓ¦Óà . Chinese Patent No. ZL 01134576.4 (2004)

6. Chen GQ, GAN ZX. A Method for Extraction and Purification of Intracellular Microbial Polyhydroxyalkanoates. Ò»ÖÖ´Óϸ¾úÌåÄÚ·ÖÀëÌáÈ¡¾ÛôÇ»ùÖ¬·¾Ëáõ¥µÄ·½·¨ . 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. Ò»ÖÖÉú²ú D-(-)- 3 £­ ôÇ»ù¶¡ËáµÄ·½·¨ . Chinese Patent No. ZL 02100014.X (2005)

8. Chen GQ , ZHENG Z and WU Q A Method for Production of 3-Hydroxydecanoate. Ò»ÖÖÉú²ú 3 £­ôÇ»ù¹ïËáµÄ·½·¨ . Chinese Patent No. ZL 02117571.3 (2005)
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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¨C199
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£ºhttp://biomat.imr.tohoku.ac.jp/Englishfreshindex.html
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Representative Publication: (²»¶àÓÚ5ƪ£¬°üÀ¨×¨Àû)
1. ֣ѧ±ó£¬ÁõÐûÓ£¬¶¡´«ÏÍ£¬ÌÕ˳ÑÜ£¬¼¾çñ£¬»Æ¾²ç÷£®¡°µÈÀë×ÓÅçÍ¿ôÇ»ùÁ×»ÒʯÉúÎïÍ¿²ãÖƱ¸ÖеĹؼü¼¼ÊõÑо¿¡±£®ÉϺ£ÊпÆѧ¼¼Êõ½ø²½¶þµÈ½±£¨2002Ä꣩£¬»ñ½±ºÅ£º022066£®
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:¶¡´«ÏÍ£º[url]http://www.sic.ac.c ... gchuanxian/54_1.htm
֣ѧ±ó£ºhttp://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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Research Highlight:´Ó¹¥¶Á²©Ê¿Ñ§Î»ÆÚ¼äÖÁ½ñ£¬ÁõÐûÓ²©Ê¿Ò»Ö±´ÓÊÂÉúÎïÒ½ÓòÄÁϱíÃæ¸ÄÐÔ·½ÃæµÄÑо¿£¬²¢»ñµÃ¶àÏîÔ­´´ÐÔÑо¿³É¹û£º£¨1£©²ÉÓõÈÀë×ÓÌåÅçÍ¿·½·¨³É¹¦ÖƱ¸Á˹è»ÒʯºÍ¹èËá¶þ¸ÆµÈ¸Æ¹è»ùÉúÎï»îÐÔÌÕ´ÉÍ¿²ã£¬Ê״ν«´«Í³¹èËáÑβÄÁÏÓÃÒÔÖƱ¸ÉúÎï»îÐÔÌÕ´ÉÍ¿²ã£¬ÍØ¿íÁËÉúÎï²ÄÁϵÄÑ¡²Ä·¶Î§£¬·´Ó³ÕâÒ»³É¹ûµÄ²©Ê¿Ñ§Î»ÂÛÎÄ¡°µÈÀë×ÓÅçÍ¿ÉúÎï»îÐÔ¹è»ÒʯͿ²ãÑо¿¡±ÈëÑ¡2004Äê¶ÈÈ«¹úÓÅÐ㲩ʿѧλÂÛÎÄ£»£¨2£©²ÉÓõÈÀë×ÓÌåÅçÍ¿¼¼Êõ£¬³É¹¦ÖƱ¸³öÁ˱íÃæÄÉÃ×»¯Ñõ»¯îÑÍ¿²ã£¬Í¨¹ý¶ÔÍ¿²ã½øÐÐ×ÏÍâ·øÕÕ»òÇâÀë×Ó×¢ÈëµÈºó´¦Àí£¬»ñµÃÁË×ÛºÏÐÔÄÜÓÅÁ¼µÄÉúÎï»îÐÔÄÉÃ×Ñõ»¯îÑÍ¿²ã£»£¨3£©²ÉÓõÈÀë×ÓÌå½þûÀë×Ó×¢Èë¼¼Êõ¸ÄÉÆÁ˹赥¾§µÄÉúÎï»îÐÔºÍÉúÎïÏàÈÝÐÔ£¬ÎªÖƱ¸¿ÉÖ²Èë¹è»ù´«¸ÐÆ÷ÌṩÁË¿ÉÄÜ£»£¨4£©²ûÊöÁËÉÏÊö²ÄÁϵÄÉúÎï»îÐÔÓëÉúÎïÏàÈÝÐÔ»úÖÆ£¬½ÏΪϵͳµØ·ÖÎöÁËÖ²ÈëÌå²ÄÁϱíÃæ×é·Ö¡¢½á¹¹ÓëÆäÉúÎïѧÐÔÄÜÖ®¼äµÄ¹Øϵ£¬ÎªÖ²ÈëÌå²ÄÁϵÄÖƱ¸ºÍÓ¦ÓÃÌṩÁË¿ÆѧÒÀ¾Ý¡£
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Representative Publication: (²»¶àÓÚ5ƪ£¬°üÀ¨×¨Àû)
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. ·¢Ã÷Ãû³Æ£º¹èËá¶þ¸ÆÍ¿²ã¡ªîѺϽð³ÐÔعÇÌæ»»²ÄÁϼ°ÖƱ¸·½·¨£¬·¢Ã÷ÈË£ºÁõÐûÓ£¬Ö£Ñ§±ó£¬ÌÕ˳ÑÜ£¬¶¡´«ÏÍ, ÉêÇëºÅ£º02111344.0

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

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chemist229

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Group Leader:³£½­

Affiliation:Öйú¿ÆѧԺÉϺ£¹èËáÑÎÑо¿ËùÉúÎï²ÄÁÏÑо¿ÖÐÐÄ

Research Interest:
1.ÓÃÓÚ×éÖ¯ËðÉËÐÞ¸´ºÍ×éÖ¯¹¤³ÌµÄ¿É½µ½âÉúÎï»îÐÔ²ÄÁϵÄÑо¿
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Representative Publication: (²»¶àÓÚ5ƪ£¬°üÀ¨×¨Àû)
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. ԭλ»¯Ñ§³Áµí·¨ÖƱ¸¹èËá¸Æ/B£­Á×ËáÈý¸Æ¸´ºÏ·ÛÌåµÄ·½·¨ ³£½­¡¢ÁÖ¿ªÀû  200510111365.2 20051209

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

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Representative Publication: (²»¶àÓÚ5ƪ£¬°üÀ¨×¨Àû)
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 ¨C 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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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). (2007ÄêÓ°ÏìÒò×Ó4.339)
2. Shao-Wen Cao, Ying-Jie Zhu,*, Ming-Yan Ma, Liang Li, Ling Zhang
Hierarchically Nanostructured Magnetic Hollow Spheres of Fe3O4 and ¦Ã-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). (2007ÄêÓ°ÏìÒò×Ó4.086)

http://www.sic.ac.cn/selfweb/ketizu/zhuyingjie/fblw.htm
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Email: cygao@mail.hz.zj.cn
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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£º
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£º
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.
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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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1. Zhi Yuan*, Mei Yu, Jihong Li, Guanghui Hou, Huiyan Wang, Endotoxin adsorbent using dimethylamine ligands, Biomaterials, 2005£¬26£¨15£©£º2741-2747
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£©£º1811-1818
3. Liang Wang, Xiaohua Jia, Zhi Yuan*, Synthesis and characterization of novel functionalized polyesters with pendent hydroxyl arms, Polymer,2006£¬47£º6978-6985.
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-¦Â-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. Ô¬Ö±£¬²éÈðÌΣ¬¶ÅÌ ÕÔ½¨Ð£¬ ÄÉÃ׸ΰÐÏòÉúÎï½µ½âÒ©ÎïÔØÌå²ÄÁϵÄÖƱ¸·½·¨£¬Öйú·¢Ã÷רÀû£¬ZL 200510015172.7
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                        2,Éñ¾­ÐÞ¸´²ÄÁÏ: 973ÏîÄ¿(2005-2008)3. ²ÄÁϱíÃæ¸ÄÐÔ
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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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*.

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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¨C1336, 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£º²Î±à¡¶Photochemistry and UV Curing: New trends¡·2006,373-383, ISBN:81-308-0014-4, Editor: J.P.Fouassier
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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.        Îâéª, ½ðÇÅ, ¼Æ½£, Fe3O4ÄÉÃ×Á£×ÓµÄÁ×Ëᵨ¼î·Âϸ°ûĤÐÞÊÎ, ²ÄÁÏÑо¿Ñ§±¨, 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
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wang_cf

Í­³æ (СÓÐÃûÆø)
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zhangwj(½ð±Ò+3,VIP+0):гæ¶àËÍÒ»¸ö¡«¡«Çë°´ÕÕ¶¥Â¥ÒªÇó²¹Æ룬»áÓÐ×·¼Ó½±Àø£¡Ð»Ð»Äú¶ÔÉúÎï²ÄÁÏ°æµÄÖ§³Ö£¡ 2-23 18:46
zhangwj(½ð±Ò+2,VIP+0):лл£¡ 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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saltlight

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he Stupp laboratory, Northwestern University

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zhangwj(½ð±Ò+7,VIP+0):лл·ÖÏí£¡ 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: (²»¶àÓÚ5ƪ£¬°üÀ¨×¨Àû)
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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The Rater laboratory

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zhangwj(½ð±Ò+7,VIP+0):лл·ÖÏí£¡ 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: (²»¶àÓÚ5ƪ£¬°üÀ¨×¨Àû)
        •  ¡°A Paradigm Shift: Biomaterials that Heal,¡± B. Ratner, Polymer International, 56:1183¨C1185, 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¨C112, 2008.
•  "Biomedical Surface Science: Foundations to Frontiers," D.G. Castner, B.D. Ratner, Surface Science 500, 28¨C60, 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¨C4839, 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¨C75, 2004.

Webpage:
http://depts.washington.edu/bioe/people/core/ratner/ratner.html
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saltlight

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Biomacromolecular materials group at MIT

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zhangwj(½ð±Ò+5,VIP+0):лл·ÖÏí£¡ 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: (²»¶àÓÚ5ƪ£¬°üÀ¨×¨Àû)
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¨C4897, 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¨C832, 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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