姓名：岑蓮教授、碩士生導師

地址：華東理工大學實驗十二樓504室

座機：021-64252808    

Email：liancen@ecust.edu.cn

【個人簡介】

教育背景：
01/2001---12/2003  博士 新加坡國立大學化工學院化學與生物分子系

09/1996---07/2000  學士（本科,化學工程/科技外語） 華東理工大學
工作經曆：
09/2014--- 至今  教授       華東理工大學化工學院      

06/2012--- 08/2014  副教授       華東理工大學化工學院  

08/2006-05/2012  項目主管   組織工程國家工程研究中心

07/2005-03/2006  博士後     新加坡國立大學醫學院

01/2004-06/2005  Research Fellow     新加坡國立大學化工學院

【研究方向】

1. 牙組織的構建和再生
2. 醫用可降解生物凝膠和組織再生應用
3. 載藥微球的可控制備和應用

【承擔項目】

1. 國家重點基礎研究發展計劃（973計劃）課題 (2010CB944804)  課題名稱：基于牙齒發育原理的牙齒構建與再生   課題負責人  2010年1月1日至2014年8月31日   經費：449萬元。

2. 國家自然科學基金（青年科學基金項目） (30900304)  項目名稱: 納米聚磷酸鹽顆粒改性聚α-羟基酸類組織工程支架材料以中合其降解的酸性産物.  項目負責人  2010年1月至2012年12月   經費：19萬。

3. 上海市浦江人才計劃  (07pj14110) 項目名稱：用聚磷酸鈉改性聚羟基乙酸組織工程用支架材料以消除支架降解酸性産物的炎症影響.  項目負責人  2007年09月30日至2009年9月30日  經費：20萬元。

【主要成果】

1. 發明創造名稱：一種生物可降解材料及其制備方法和用途

專利号：ZL 200910049605.9

發明人：岑蓮，曹誼林，劉偉，崔磊，李喆

2. 發明創造名稱：一種殼寡糖和透明質酸交聯凝膠的制備方法

專利号：ZL 201210338284.6

發明人：岑蓮，謝淑君，徐菊美

【近年來發表的代表性論文】

1. Hong Chen, Feng Jia, Chengcheng Zhu, Jumei Xu, Xiaobin Hua, Zhenhao Xi, Liang Shen,Shicheng Zhao,⁎Lian Cen,⁎Controllable preparation of SB-3CT loaded PLGA microcapsules for traumatic-brain-injury pharmaco-therapy.Chemical Engineering Journal. 2018,339, 346-358.

2. Zhu C, Yang R, Hua X, Chen H, Xu J, Wu Rile*, Cen L*.Highly stretchable HA/SA hydrogels for tissue. Journal of Biomaterials Science-Polymer Edition. 2018, 29(5), 543-561.

3. Jiapeng Zhang, Shengbing Yang, Xi Yang, Zhenhao Xi*, Ling Zhao, Lian Cen*, Eryi Lu, Ying Yang. Novel fabricating process for porous polyglycolic acid scaffolds by melt-foaming using supercritical carbon dioxide. ACS Biomaterials Science & Engineering. 2018, 4(2), 694-706.

4. Sun Z, Liu S, Li K, Tan L, Cen L*, Fu G*. Well-defined and biocompatible hydrogels with toughening and reversible photoresponsive properties. Soft Matter, 2016, 12, 2192.

5. Yang R, Tan L, Cen L*, Zhang Z*. An injectable scaffold based on crosslinked hyaluronic acid gel for tissue regeneration. RSC Advances, 2016, 6, 16838.

6. Zhu Y, Chen H, Cen L*, Wang J*. Influence of abutment tooth position and adhesive point dimension on the rigidity of a dental trauma wire-composite splint. Dental Traumatology,2016; 32: 225.  

7. DongM, LiuS, TanL, CenL*,FuG*. Hydrogels of chemically cross-linked and organ-metallic complexed interpenetrating PEG networks. Chinese Journal of Polymer Science, 2016, 34(5), 637-648.

8. Zhu W, Zhang Q, Zhang Y, Cen L*, Wang J*. PDL regeneration via cell homing in delayed replantation of avulsed teeth. Journal of Translational Medicine.2015, 13:357.

9. Tan L, Wang J, Yin S, Zhu W, Zhou G, CaoY*, CenL*. Regeneration of dentin–pulp-like tissue using an injectable tissue engineering technique. RSC Advances, 2015, 5(73):59723.

10. Li Y, Zhou C, Xu L, Yao F, Cen L*, et al. Stimuli-responsive hydrogels prepared by simultaneous click chemistry and metal-ligand coordination. RSC Advances. 2015; 5: 18242.

11. Qian S, Zhou C, Xu L, CenL*, et al. High strength biocompatible PEG single-network hydrogels. RSC Advances, 2014, 4:25241.

12. Sun Y, Zhou C, Zhang A, Xu L, Fang Y, Cen L*, et al. The synthesis of hydrogels with controlled distribution of polymer brushes on hydrogel network. Applied Surface Science 2014, 320:818.

13. Jia F, Yin YH, Gao GY, Wang Y, Cen L*, et al. MMP-9 Inhibitor SB-3CT Attenuates Behavioral Impairments and Hippocampal Loss after Traumatic Brain Injury in Rat. J Neurotrauma, 2014, 31:1225.

14. Xie S, Zhu Q, Wang B, Gu H, Liu W, Cui L, Cen L*, et al. Incorporation of tripolyphosphate nanoparticles into fibrous poly(lactide-co-glycolide) scaffolds for tissue engineering. Biomaterials, 2010, 31:5100.

15. Li Z, Cen L*, Zhao L, et al.Preparation and evaluation of thiolated chitosan scaffolds for tissue engineering. Journal of Biomedical Materials Research A.2010, 92A: 973–978.

16. Cen L, Neoh KG,Sun J, et al. Labeling of adipose derived stem cells by oleic acid modified magnetic nanoparticles, Advanced Functional Materials, 2009, 19: 1158.

17. Cen L, Liu W, Cui L, Cao Y. Collagen tissue engineering: development of novel biomaterials and applications. Pediatric Research, 2008, 63:492.

18. Cen L, Neoh KG, Kang ET. Au-Pt bimetallic nanoparticles formation via viologen-mediated reduction on polymeric nanospheres, Journal of Colloid and Interface Science,2006,300:190.

19. Cen L, Neoh KG, Kang ET. Gold nanocrystal formation on viologen functionalized polymeric nanospheres, Advanced Materials,2005, 17:1656.

20. Cen L, Neoh KG, Li YL, Kang ET. Assessment of in vitro bioactivity of hyaluronic acid and sulfated hyaluronic acid functionalized electroactive polymer, Biomacromolecules, 2004, 5:2238.

21. Cen L, Neoh KG, Kang ET. Antibacterial activity of cloth functionalized with n-alkylated poly(4-vinylpyridine), Journal of Biomedical Materials research A, 2004, 71:70.

22. Cen L, Neoh KG, Ying L, Kang ET. Surface modification of polymeric films and membranes to achieve antibacterial properties. Surface And Interface Analysis. 2004, 36:716.

23. Cen L, Neoh KG, Kang ET. Surface functionalization of polypyrrole film with glucose oxidase and viologen, Biosensors & Bioelectron, 2003, 18:363.

24. Cen L, Neoh KG, Kang ET. Surface functionalization technique for conferring antibacterial properties to polymeric and cellulosic surfaces, Langmuir, 2003, 18, 10295.

25. Cen L, Neoh KG, Kang ET. Surface functionalization of electrically conductive polypyrrole film with hyaluronic acid, Langmuir,2002, 18:8633.