毛春

时间:2009-09-03 来源:化科院 点击数:

姓名

毛春

职称

教授

学位学历

博士

联系电话

E-mail

maochun135@aliyun.com

2004 年 6 月获南京大学高分子物理与化学专业博士学位(研究方向为抗凝血类生物医用高分子的研制)。2004年10月至2008年8月先后在韩国科学技术院、韩国梨花女子大学纳米科学部从事生物材料方向博士后研究。2008年12月被南京师范大学以优秀高层次人才引进。目前担任生物医药功能材料国家地方联合工程研究中心副主任,江苏省生物医药功能材料协同创新中心副主任。


研究方向介绍:1、生物医用材料及器械的制备及应用;2、纳米材料的制备及生物安全性评价和应用;3、仿生微纳技术;4、生物传感技术。欢迎优秀的有志向的年轻学子来报考博硕士研究生,以及联系生物医用材料、纳米材料和生物传感方向的博士后!


在研项目:近五年来,主持国家自然科学基金项目、江苏省科技厅及教育厅面上及重大基金项目、高等学校博士点基金项目以及参加江苏省产学研前瞻性联合研究项目、校企联盟产学研等多个项目。

成果介绍:

已在Advances in Colloid and Interface Science、Journal of Materials Chemistry、Macromolecules、Langmuir、Analytica Chimica Acta等SCI源期刊上发表论文近五十篇(影响因子大于3的为32篇);申请发明专利十项(已授权2项,转让1项);担当第三届中欧生物材料与再生医学大会“材料表面改性”分会主席,以及口头报告,江苏省第一届高分子研讨会邀请报告,第九届世界生物材料大会口头报告等;获得2009年度教育部高等学校科学研究优秀成果奖(自然科学)一等奖1项;2013年担任SCI源Journal of Nanoscience and Nanotechnology专刊特邀客座编辑;2013年受到WILEY-Scrivener出版社邀请,撰写题为“Advanced Materials: Health care”书籍中的一章(已完成,正在出版)。

主要代表论文 (第一作者或通讯联系人)

1. Blood compatibility of a new zwitterionic bare metal stent with hyperbranched polymer brushes.Journal of Materials Chemistry B1, 5036-5044, 2013.

2. Fabrication of glucose biosensor for whole blood based on Au-hyperbranched polyester nanoparticles multilayers by antibiofouling and self-assembly technique.Analytica Chimica Acta776, 17-23, 2013.

3. Preparation of water-soluble hyperbranched polyester nanoparticles with sulfonic acid functional groups and their micelles behavior, anticoagulant effect and cytotoxicity.Langmuir29, 8402-8409, 2013.

4. Preparation of a novel immunosensor for tumor biomarker detection based on ATRP technique.Journal of Materials Chemistry B1, 2132-2138, 2013.

5. A label-free electrochemical aptasensor for sensitive thrombin detection in whole blood.Electrochimica Acta106, 327-332, 2013.

6. Preparation, blood compatibility and anticoagulant effect of heparin-loaded polyurethane microspheres.Journal of Materials Chemistry B1, 447-453, 2013 (封面文章).

7. Fabrication and bioproperties of raspberry-type hybrid nanoparticles of Au-Thioethyl pendant Ligand@Chitosan.Journal of Biomedical Nanotechnology9, 115-123, 2013.

8. Preparation of novel electrochemical glucose biosensors for whole blood based on antibiofouling polyurethane-heparin nanoparticles.Electrochimica Acta97, 349-356, 2013.

9. Preparation of PNIPAM-g-P (NIPAM-co-St) microspheres and their blood compatibility.Colloids and Surfaces B: Biointerfaces104, 61-65, 2013.

10. A fluorescent sensor bearing nitroolefin moiety for the detection of thiols and its biological imaging.Dyes and Pigments96, 232-236, 2013.

11. Hemocompatible and antibiofouling PU-F127 nanospheres platform for application to glucose detection in whole blood.Journal of Materials Chemistry B1, 801-809, 2013.

12. Facile fabrication of Au-F127 nanocolloids with different morphologies and their potential bioapplications.Australian Journal of Chemistry66, 381-390, 2013.

13. Preparation and evaluation of well-defined hemocompatible layered double hydroxide-poly(sulfobetaine) nanohybrids.Journal of Materials Chemistry22, 15362-15369, 2012.

14. Biocompatibility of CS-PPy nanocomposites and their application to glucose biosensor.Bioelectrochemistry88, 1-7, 2012.

15. Improvement of hemocomp atibility of polycaprolactone film surfaces with zwitterionic polymer brushes.Langmuir27, 11575-11581, 2011.

16. Preparation of polypropylene superhydrophobic surface and its blood compatibility.Colloids and Surfaces B: Biointerfaces80, 247-250, 2010.

17. Modification of polyethylene with Pluronics F127 for improvement of blood compatibility.Colloids and Surfaces B: Biointerfaces74, 362-365, 2009.

18. Synthesis of rambutan-like hybrid nanospheres of Au-P123.Gold Bulletin42(3), 215-218, 2009.

19. Novel blood-compatible polyurethane ionomer nanoparticles.Macromolecules42, 9366-9368, 2009.

20. Preparation of lotus-leaf-like polystyrene micro- and nanostructure films and its blood compatibility.Journal of Materials Chemistry19, 9025-9029, 2009.

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