四川大学化学学院
师资力量

宋 飞     博士、教授、博士生导师

研究方向:高分子化学与物理

联系方式:028-85410755          Email:songfei@scu.edu.cn; songfei520@gmail.com

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简历

博士、教授、硕士生导师。

2017至今 四川大学,教授

2012~2017 四川大学,副教授

2010~2012 四川大学,讲师

2009~2010 香港理工大学,博士后

2004~2009 中山大学化学与化学工程学院,高分子化学与物理专业,博士

2000~2004 中山大学化学与化学工程学院,材料化学专业,学士

主讲课程:

本科课程《高分子科学导论》、《高分子与现代社会发展》;

研究生课程《聚合物分子设计与改性》。

主要研究方向

生物基与生物降解高分子材料

天然高分子材料

仿生材料

胶体与表面化学

主要工作业绩

主讲《高分子科学导论》、《高分子与现代社会发展》等本科课程和《聚合物分子设计与改性》研究生课程。在 Advanced Functional Materials ACS Applied Materials & Interfaces Chemical Communications Chemical Engineering Journal ACS Sustainable Chemistry & Engineering 等刊物上发表论文 60 余篇 (IF>5 论文 20 余篇 ) ,多篇论文入选杂志封面 /ESI 高被引 / 期刊 TOP   Most Read/Download 论文,被美国化学会新闻周刊 (ACS News Service Weekly PressPac) Nanotechweb 等国内外新闻网站推送和转载;出版国家重点图书《淀粉基新材料》一部;入选四川省天府万人计划科技菁英人才,获四川省杰出青年基金,获四川省科技进步一等奖和广东省科学技术二等奖,多次获四川大学青年科技人才、好未来优秀学者、青年科技学术带头人、课堂教学质量优秀奖、学术型社团指导教师标兵奖、青年骨干教师和优秀本科毕业论文指导教师等奖励和称号。

代表性成果 (获奖成果、专著、论文、专利)

1. Wang   F, Pi J, Song F,* Feng R, Xu C, Wang XL, Wang YZ.* A superhydrophobic coating   to create multi-functional materials with mechanical/chemical/physical   robustness. Chem Eng J. 2020, 381, 122539

http://202.115.32.186:8080/_vsl/E9086CD7CA39C2F83A61930A7B3E6C28/61A5EB04/931C

2. Wang   F, Pi J, Li JY, Song F,* Feng R, Wang XL, Wang YZ.* Highly-Efficient   Separation of Oil and Water Enabled by a Silica Nanoparticle Coating with   pH-Triggered Tunable Surface Wettability. J Colloid Interface Sci, 2019,   in press

3. Luo   YQ, Song X, Song F,* Wang XL, Wang YZ.* A fully bio-based composite coating   with mechanical robustness and dual superlyophobicity for efficient two-way   oil/water separation. J Colloid Interface Sci, 2019, 549, 123-132

http://202.115.32.186:8080/_vsl/0A227C3D001AC9735995D345227173B6/8A354722/22FD8

4. Liu   H, Xie WY, Song F,* Wang XL, Wang YZ. Constructing Hierarchically   Hydrophilic/Superhydrophobic ZIF-8 Pattern on Soy Protein towards a   Biomimetic Efficient Water Harvesting Material. Chem Eng J, 2019,   369, 1040-1048

http://202.115.32.186:8080/_vsl/C09E86534C931EE01ABCB773A65BA8CA/CCBFB4CA/10868

5. Xue   J, Song F,* Dong X, Yin XW, Liu Y, Wu JM, Wang C, Wang XL, Wang YZ.*   Controlling Self-Assembly of Cellulose Nanocrystal to Synergistically   Regulate (001) Reactive Facets and Hierarchical Pore Structure of Anatase   Nano-TiO2 for High Photocatalytic Activity. ACS Sustainable   Chem Eng, 2019, 7, 1973-1979

http://202.115.32.186:8080/_vsl/08AF24BAF1C676197044E1E52AD16DFF/4FCDBD8D/210C5

6. Li   MQ, Wu JM, Song F,* Li DD, Wang XL,* Chen L, Wang YZ. Flexible and   electro-induced shape memory Poly(Lactic Acid)-based material constructed by   inserting a main-chain liquid crystalline and selective localization of   carbon nanotubes. Compos Sci Technol, 2019, 173, 1-6

http://202.115.32.186:8080/_vsl/742288069D313604EAD3C51EDFEAEFFE/9C9F61E9/19A39

7. Xu   C, Feng R, Song F,* Wang XL, Wang YZ.* Desert Beetle-Inspired Superhydrophilic/Superhydrophobic   Patterned Cellulose Film with Efficient Water Collection and Antibacterial   Performance. ACS Sustainable Chem Eng, 2018, 6, 14679-14684 (Front   Cover)

http://202.115.32.186:8080/_vsl/BF65CC03E3DB0261E6C317FE188F0A61/0B5CF889/31D65

8. Xu   C, Feng R, Song F,* Wu JM, Luo YQ, Wang XL, Wang YZ.* Continuous and   controlled directional water transportation on a hydrophobic/superhydrophobic   patterned surface. Chem Eng J, 2018, 352, 722-729

http://202.115.32.186:8080/_vsl/40E85BEA299D1823F844C8E5EA62C5E6/9596C5DF/7A1A4

9. Wang   XH, Song F,* Qian D, He YD, Nie WC, Wang XL, Wang YZ.* Strong and tough fully   physically crosslinked double network hydrogels with tunable mechanics and   high self-healing performance. Chem Eng J, 2018, 349,   588-594 (Top 24 Most Download Article)

http://202.115.32.186:8080/_vsl/19470A3A73086BDD587D6EE93F0523F9/FFDCD7A5/3BBC

10. Yuan   X, Nie WC, Xu C, Wang XH, Xiao Q, Song F,* Wang XL,* Wang YZ. From Fragility   to Flexibility: Construction of Hydrogel Bridges toward a Flexible   Multifunctional Free-Standing CaCO3 Film. Adv Funct Mater, 2018,   201704956

http://202.115.32.186:8080/_vsl/5338EF503566FE518AF090137FF155CF/830006B2/5F28

11. He   YD, Zhang ZL, Xue J, Wang XH, Song F,* Wang XL, Zhu LL, Wang YZ. Biomimetic   Optical Cellulose Nanocrystal Films with Controllable Iridescent Color and   Environmental Stimuli-Responsive Chromism. ACS Appl Mater Interfaces,2018,   10, 5805-5811

http://202.115.32.186:8080/_vsl/64740565B93F9237E6A18F5ECE19E833/1C051617/4105

12. Xie   DY, Qian D, Song F*, Wang XL, Wang YZ*. A Fully Bio-Based Encapsulant Constructed   by Soy Protein and Cellulose Nanocrystal for Flexible Electromechanical   Sensing. ACS Sustainable Chem Eng, 2017, 5, 7063-7070

http://202.115.32.186:8080/_vsl/55861D16C722587ACD5657DDD545EB04/E8B972B6/556C

13. Xie   WY, Wang F, Xu C, Song F*, Wang XL, Wang YZ. A Superhydrophobic and   Self-Cleaning Photoluminescent Protein Film with High Weatherability. Chem   Eng J, 2017, 326, 436-442

http://202.115.32.186:8080/_vsl/88F5E107CC2EDDA3895A7835A014C08F/D6E0D07A/5ACA

14. Xue   J, Song F*, Yin XW, Zhang ZL, Liu Y, Wang XL, Wang YZ*. Cellulose   Nanocrystal-Templated Synthesis of Mesoporous TiO2 with Dominantly   Exposed (001) Facets for Efficient Catalysis. ACS Sustainable Chem Eng, 2017,   5, 3721-3725 (Top 20 Most Read Article)

http://202.115.32.186:8080/_vsl/F4C2322CC4F6C212C786D205B42ACCB6/3ED9C8B9/C17B

15. Xie   WY, Song F*, Wang XL, Wang YZ. Development of Copper Phosphate Nanoflowers on   Soy Protein toward a Superhydrophobic and Self-Cleaning Film. ACS   Sustainable Chem Eng, 2017, 5, 869-875

http://202.115.32.186:8080/_vsl/04FD8128522885C3766B1A173A1CBAD7/0EEC1776/2E7A

16. Xu   CL, Song F*, Wang XL, Wang YZ*. Surface modification with hierarchical CuO   arrays toward a flexible, durable superhydrophobic and self-cleaning   material. Chem Eng J, 2017, 313, 1328-1334 (ESI highly cited   paper)

http://202.115.32.186:8080/_vsl/60323B2FD88D7C77C3212B2BB2B3DB91/5E27D018/4FEB

17. Li   MQ, Song F*, Chen L, Wang XL*, Wang YZ. Flexible Material Based on   Poly(lactic acid) and Liquid Crystal with Multishape Memory Effects. ACS   Sustainable Chem Eng, 2016, 4, 3820-3829

http://202.115.32.186:8080/_vsl/1AB239D4EA5F987B7C297416235EB4AA/9DF43DF7/56BE

18. Xue   J, Song F*, Yin XW, Wang XL, Wang YZ*. Let it shine: a transparent and   photoluminescent foldable nanocellulose/quantum dot paper. ACS Appl Mater   Interfaces, 2015, 7, 10076-10079 (Highlighted by ACS   Press Room, TOP 10 Most Read Article)

http://202.115.32.186:8080/_vsl/75894D67076B9D097E9AB6CAABB748D6/F182C82F/4D07

19. Bai   L, Wang XH, Song F*, Wang XL, Wang YZ*. “AND” logic gate regulated pH and   reduction dual-responsive prodrug nanoparticles for efficient intracellular   anticancer drug delivery. Chem Commun, 2015, 51, 93-96

http://202.115.32.186:8080/_vsl/88D612E45C1DD4C8BF333955AA864400/1D023893/4FF1

20. Song   F,* Xu C, Bao WY, Wang XL,* Wang YZ. Bamboo (Neosinocalamus affinis)-based   thin film, a novel biomassmaterial with high performances. Carbohydr   Polym, 2015, 119, 167-172

http://202.115.32.186:8080/_vsl/6E5231F1754F636222474EC73AE8576A/C616D7EC/3CB9

21. 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 (Invited Lab Talk Article,   TOP 10 Most Read Article)

http://202.115.32.186:8080/_vsl/F5D70A84009ABC638E6448D2061AF301/30CD51B9/61AB

22. Tong   XZ, Song F,* Li MQ, Wang XL,* Chin IJ, Wang YZ. Fabrication of   graphene/polylactide nanocomposites with improved properties. Compos Sci Technol, 2013,   33-38

23. Song   F*, Tang DL, Wang XL, Wang YZ*. Biodegradable Soy Protein Isolate-Based   Materials: A Review. Biomacromolecules, 2011, 12, 3369-3380 (Top   5 Most Read Article)

http://202.115.32.186:8080/_vsl/C1CA4A28F817D6D7C6C1C7F4E02E0643/C8C9221E/7057

24. 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. Mater   Sci Eng C, 2010, 30, 804-811

25. Song F, Zhang LM,* Li NN, Shi JF. In Situ Crosslinkable   Hydrogel Formed from a Polysaccharide-Based Hydrogelator. Biomacromolecules, 2009,   10, 959-965

 

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