蘇文達 助理教授

 

研究方向:生醫材料、組織工程、幹細胞與環境微生物、生化工程

生醫材料、組織工程:將天然與高分子合成材料配合各種製作技術,發展出立體載體、微米與奈米尺寸等生醫材料,探討一般細胞與幹細胞在生醫材料上的生理行為與增殖、分化的機制,並加入生物反應器作動態研究,以神經細胞與間葉幹細胞為主。

微生物生化工程:利用現有菌種或野外篩菌,探索水污染與固體污染源的分解機制,配合篩菌流程、發酵技術與基因改殖方法,強化菌種的機能與發酵效率,提高蛋白質分泌與污染物去除的目的,以油污分解與染料廢水色素與有機物去除為主。

 
研究成果目錄:

發表期刊

Biodegradattion of engine motor oil and Optimization medium constituents using response surface methodology had been submitted to "Biodegradation"

1.      Wen-Ta Su,*, Yung-Feng Liao, Chuang-Yu Lin, Li-Tzu Li, Micro-pillar substrate influences the cellular attachment and laminin expression, J. Biomedical material research Part A. Accepted.

2.      Wen-Ta Su*, Wen-Jang Chen, Yi-Fan Lin, Optimizing emulsan production of A. venetianus RAG-1 using response surface methodology. Applied Microbiology and Biotechnology. 2009 84:271-279 (SCI) 

3.      Wen-Ta Su *, Yung-Feng Liao, I-Ming Chu, Observation of fibroblast motility on a micro-grooved hydrophobic elastomer substrate with different geometric characteristics, Micron, 2007, 38, 278-285 (SCI)

4.      Wen-Ta Su*, Jung-Yen Yang , Chuan-Ding Lin, I-Ming Chu, The geometric pattern of a pillared substrate influences the cell processes distribution and shapes of fibroblasts, Micron, 2006, 37, 699-706, (SCI)

5.      Wen-Ta Su, Jung-Yen Yang* , Chuan-Ding Lin, I-Ming Chu, Control Cell Behavior on Physical Topographical Surface, Japanese Journal of Applied Physics, 2004, 43, 3806-3809, 2004 (SCI)

6.      W.T. Su, C.K. Lee. Reversed micellar extraction of vancomycin : effect of pH, salt concentration, and affinity ligands. Separation Science and technology, 1999, 34, 1703-1015

7.      C.K. Lee, W.T. Su. Nonionic surfactant-mediated affinity cloud-point extraction vancomycin. Separation Science and technology, 1999, 34, 3267-3277

8.      C.K. Lee, W.T. Su. Separation of phenylacetic acid from 6-aminopenicillanic acid via cloud-point extraction with n-decyltetra(ethylene oxide) nonionic surfactant. Separation Science and technology, 1998, 33, 1003-1012

9.      蘇文達. 微胞霧點萃取分離之原理及應用. J. Chin Colloid & Interface Soc., 1998, 21, 105-119

 

國內外研討會

1. 14th 生化工程研討會 2009. 6.5~6 台灣 台中中興大學

  TitleRegulation of axon guidance and extension by topographical structure

2. 14th 生化工程研討會 2009. 6.5~6 台灣 台中中興大學

  Title灌流反應器中成骨細胞的表現

3. 13th 生化工程研討會 2008. 6.27~28 台灣 桃園元智大學

  TitleInducing PC-12 Cells Spreading on Micro-grooved Substrate

4. 13th 生化工程研討會 2008. 6.27~28 台灣 桃園元智大學

  TitlePillar depth Influences the Cellular Behavior and disturb the Cell cycle on Si – wafer

5. 13th 生化工程研討會 2008. 6.27~28 台灣 桃園元智大學

  TitleZymomonas mobilis ATCC 29191 轉化葡萄糖成生質乙醇之培養基開發

6. 台灣化工年會 2007.11.23-24台灣 林口長庚大學

  Title:利用運動發酵單胞菌Zymomonas mobilis ATCC 29191發酵生產生乙醇之研究

7. 台灣化工年會 2007.11.23-24台灣 林口長庚大學

  Title:油污分解菌之篩選與應用

8. 11th conference of biochemical engineering & symposium on agricultural

bioindustry  2006 June 23-24 清華大學

TitleMicro-pillared substrate increase hematopoietic cells expansion

9. Symposium on Nano Device Technology 2005

國立交通大學光復校區電子資訊大樓一褸國際會議廳

TitleGeometric pattern of pillar substrate influences cellular motility

10. 台日尖端生醫材料研討會 2004, Oct. 4~5,臺北劍潭,臺灣

TitleTopographical features influence fibroblasts morphology

11. 4th Asian international symposium on biomaterials conference,

2004 November 16-18,Japan

TitleGeometric pattern of pillar substrate influences cell spreading

12. 9th conference of biochemical engineering & symposium on agricultural bioindustry  2004 June 25-26 大葉大學

Title:材料表面構形對細胞生長行為的研究

13. 2004 Nanotechnology Conference and Trade Show
Nanotech 2004 March 7-11, 2004, Boston, Massachusetts, U.S.A.

TitleCell Behavior affected by microgrooved substratum

14. 2003 international microprocesses and nanotechnology conference (MNC)

October 28-31 2003 Tokyo Fashion Town, Tokyo, Japan

TitleControl Cell Behavior on Physical Topographical Surface

15. Symposium on Nano Device Technology 2003 May 14-15

國立交通大學光復校區電子資訊大樓一褸國際會議廳

TitleEffect of substratum morphology on cell behavior