常春雨博士,副教授
研究方向：天然高分子材料
联系电话：**
Email:changcy@whu.edu.cn


课题组主页：https://www.x-mol.com/groups/Chang_cy

分别于2005年和2011年在武汉大学获得学士和博士学位，师从张俐娜院士。2011年到2013年在日本京都大学从事博士后研究工作 (JSPS外国人特别研究员)。2014年进入武汉大学化学与分子科学学院工作。从事天然高分子功能材料的研究工作，主要研究兴趣包括：① 高分子水凝胶，从网络结构的设计出发，构建高性能水凝胶材料；② 纳米纤维素表面化学修饰、液晶行为及其3D打印制备功能材料；③ 高强度蛋白质材料的构建及应用。研究成果在Chem. Mater.、ACS Appl. Mater. Interfaces等国际期刊发表论文50余篇，其中第1作者和通讯作者论文33篇，2篇论文为ESI高被引论文，总被引大于4000次，H指数为29，授权发明专利8项。2012年被评选为湖北省优秀博士论文，2013年获全国百篇优秀博士论文提名论文，2015年入选广州市“珠江科技新星”，2016年入选武汉大学珞珈青年****。

代表性论文：






1.Q. Cheng, P. Chen, D. Ye, J. Wang, G. Song, J. Liu, Z. Chen, L. Chen, Q. Zhou,* C.Chang,*L.Zhang*, The conversion of nanocellulose into solvent-free nanoscale liquid crystals by attaching long side-arms for multi-responsive optical materials. Journal of Materials Chemistry C2020, 8,11022 (Cover Paper).
2.D. Hu, Y. Cui, K. Mo, J. Wang, Y. Huang, X. Miao, J. Lin, C.Chang*. Ultrahigh strength nanocomposite hydrogels designed by locking oriented tunicate cellulose nanocrystals in polymeric networks. Composites Part B: Engineering2020, 197, 108118.
3. K. Mo, M. He, X. Cao, C.Chang*. Direct current electric field induced gradient hydrogel actuators with rapid thermo-responsive performance as soft manipulators. Journal of Materials Chemistry C2020, 8, 2756.
4. D.Li, X.Huang, Y. Huang, J. Yuan, D.Huang, J.Cheng*, L.Zhang,C.Chang*,Additive printed all-cellulose membranes with hierarchical structure for highly efficient aeparation of oil/water nanoemulsions.ACS Applied Materials and Interfaces,2019, 11, 44375-44382.
5. Y.Huang, H.Zhan, D. Li, H.Tian*,C. Chang*, Tunicate cellulose nanocrystals modified commercial filter paper for efficient oil/water separation.Journal of Membrane Science,2019, 591, 117362.
6. D. Ye, P. Yang, X. Lei, D. Zhang, L. Li,C.Chang*, P.Sun, and L.Zhang*, Robust anisotropic cellulose hydrogels fabricated via strong self-aggregation forces for cardiomyocytes unidirectional growth.Chemistry of Materials,2018, 30, 5175.
7. H. Zhan,T. Zuo,R. Tao, andC.Chang*, Robust tunicate cellulose nanocrystal/palygorskite nanorod membranes for multifunctional oil/water emulsion separation.ACS Sustainable Chemistry and Engineering,2018,6, 10833.
8.Q.Cheng, D.Ye, W.Yang, S. Zhang, H.Chen,C.Chang*and L. Zhang*, Construction of transparent cellulose-based nanocomposite papers and potential application in flexible solar cells.ACS Sustainable Chemistry and Engineering,2018, 6, 8040.
9. D. Ye, Q.Cheng, Q.Zhang, Y. Wang,C.Chang*, L.Li, H.Peng, and L.Zhang*, Deformation drives alignment of nanofibers in framework for inducing anisotropic cellulose hydrogels with high toughness.ACS Applied MaterialsandInterfaces,2017, 9, 43154.
10.T.Zhang, Q.Cheng, D.Ye,C.Chang*, Tunicate cellulose nanocrystals reinforced nanocompoisite hydrogels comprised by hybrid cross-linked networks.ACS Applied MaterialsandInterfaces,2017, 9, 24230.
11.Q.Cheng, D.Ye,C.Chang*, L. Zhang, Facile fabrication of superhydrophilic membranes consisted of fibrous tunicate cellulose nanocrystals for highly efficient oil/water separation.Journal of Membrane Science,2017, 525, 1.
12. N.Peng, D.Hu, J.Zeng, Y.Li, L.Liang,C.Chang*, Superabsorbent cellulose-clay nanocomposite hydrogels for highly efficient removal of dye in water.ACS Sustainable Chemistry and Engineering,2016, 4, 7217.