宋飛

博士、副教授、碩士生導師。

2012年至今四川大學，副教授

2010~2012 四川大學，講師

2009~2010 香港理工大學，博士後

2004~2009 中山大學化學與化學工程學院，高分子化學與物理專業，博士

2000~2004 中山大學化學與化學工程學院，材料化學專業，學士

擔任四川省雙語精品課程《高分子科學導論》、《高分子與現代社會發展》、《聚合物分子設計與改性》等課程主講教師。

環境友好生物基高分子材料

生物醫用高分子材料

1、2012年四川省科技進步一等獎, 排名第六

2、2012年四川大學教學成果獎二等獎，排名第七

3、2011、2012年四川大學青年骨幹教師

4、2012年四川大學優秀本科畢業論文指導教師 ^[1] 

1. Zheng J, Song F*, Wang XL*, Wang YZ. In-situ synthesis, characterization and antimicrobial activity of viscose fiber loaded with silver nanoparticles. Cellulose, 2014, in press.

2. Chen C, Zhou JL, Han X, Song F*, Wang XL, Wang YZ*. A prodrug strategy based on chitosan for efficient intracellular anticancer drug delivery. Nanotechnology, 2014, 25, 255101.

3. Xie DY, Song F*, Zhang M, Wang XL, Wang YZ*. Soy protein isolate films with improved property via a facile surface coating. Industrial Crops and Products, 2014, 54, 102.

4. Song F*, Shi WT, Dong XT, Han X, Wang XL*, Chen SC, Wang YZ. Fennel-like nanoaggregates based on polysaccharide derivatives and their application in drug delivery. Colloids and Surfaces B: Biointerfaces, 2014, 113, 501.

5. Tong XZ, Song F*, Li MQ, Wang XL*, Chin IJ, Wang YZ. Fabrication of graphene/polylactide nanocomposites with improved properties. Composites Science and Technology, 2013, 88, 33.

6. Tang DL, Song F*, Chen C, Wang XL, Wang YZ*. A pH-responsive chitosan-b-poly(p-dioxanone) nanocarrier: formation and efficient antitumor drug delivery. Nanotechnology, 2013, 24, 145101.

7. Zhang M, Song F*, Wang XL, Wang YZ*. Development of soy protein isolate/waterborne polyurethane blend films with improved properties. Colloids and Surfaces B: Biointerfaces, 2012, 100, 16.

8. Song F*, Tang DL, Wang XL, Wang YZ*. Biodegradable Soy Protein Isolate-Based Materials: A Review. Biomacromolecules, 2011, 12, 3369. (Most Read Article, Top 20)

9. Song F*, Wang XL, Wang YZ*. Fabrication of Novel Thermo-Responsive Electrospun Nanofibrous Mats and Their Application in Bioseparation. European Polymer Journal, 2011, 47, 1885.

10.Song F*, Wang XL, Wang YZ*. Poly (N-isopropylacrylamide)/Poly (ethylene oxide) Blend Nanofibrous Scaffolds: Thermo-Responsive Carrier for Controlled Drug Release. Colloids and Surfaces B: Biointerfaces, 2011, 88, 749.

11.Song F, Fan JT. A facile method for fabrication of moisture-sensitive porous membrane with on–off function. Materials Letter, 2011, 65, 2118.

12.He FA, Fan JT*, Song F, Zhang LM, Chan HLW. Fabrication of hybrids based on graphene and metal nanoparticles by in situ and self-assembled methods. Nanoscale, 2011, 3, 1182.

13.Song F, Zhang LM, Shi JF, Li NN. Viscoelastic and fractal characteristics of a supramolecular hydrogel hybridized with clay nanoparticles. Colloids and Surfaces B: Biointerfaces, 2010, 81, 486.

14.Song F, Zhang LM, Shi JF, Li NN, Yang C, Yan L. Using hydrophilic polysaccharide to modify supramolecular hydrogel from a low-molecular-mass gelator. Materials Science Engineering C, 2010, 30, 804.

15.Song F, Zhang LM, Shi JF, Li NN. Novel casein hydrogels: Formation, structure and controlled drug release. Colloids and Surfaces B: Biointerfaces, 2010, 79, 142.

16.Song F, Zhang LM. Gelation modification of soy protein isolate by a naturally occurring crosslinking agent and its potential biomedical application. Industrial and Engineering Chemistry Research, 2009, 48, 7077.

17.Song F, Li NN, Shi JF, Zhang LM. In-situ crosslinkable hydrogel formed from a polysaccharide - based hydrogelator. Biomacromolecules, 2009, 10, 959.

18.Song F, Yang C, Yan L, Zhang LM. Genipin-cross-linked casein hydrogels for controlled drug delivery. International Journal of Pharmaceutics, 2009, 373, 41.

19.Song F, Zhang LM. Enzyme-catalyzed formation and structure characteristics of a protein-based hydrogel. The Journal of Physical Chemistry B, 2008, 112, 13749. ^[2]