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 Acta 97, 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.