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武汉大学化学与分子科学学院导师教师师资介绍简介-常春雨

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常春雨分别于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2篇论文为ESI高被引论文,总被引大于3900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,2014年入选湖北省楚天****计划,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.Kangwei Mo, Meng He, Xiaodong Cao,Chunyu Chang*, Direct current electric field induced gradient hydrogel actuators with rapid themo-responsive performance as soft manipulators.Journal of Materials Chemistry C2020, 8, 2756-2763.
2. Dong Li, Xinyi Huang, Yanan Huang, Jun Yuan, Da Huang, Gary J. Cheng*, Lina Zhang,Chunyu Chang*,Additive printed all-cellulose membranes with hierarchical structure for highly efficient aeparation of oil/water nanoemulsions.ACS Applied Materials & Interfaces,2019, 11, 44375-44382.
3.Yanan Huang, Hui Zhan, Dong Li, Huafeng Tian*,Chunyu Chang*, Tunicate cellulose nanocrystals modified commercial filter paper for efficient oil/water separation.Journal of Membrane Science,2019, 591, 117362.
4.Dongdong Ye, Pengcheng Yang, Xiaojuan Lei, Donghui Zhang, Liangbin Li,Chunyu Chang*, Pingchuan Sun, and Lina Zhang*, Robust anisotropic cellulose hydrogels fabricated via strong self-aggregation forces for cardiomyocytes unidirectional growth.Chemistry of Materials,2018, 30, 5175.
5.Hui Zhan,Tao Zuo,Rongjun Tao, andChunyu Chang*, Robust tunicate cellulose nanocrystal/palygorskite nanorod membranes for multifunctional oil/water emulsion separation.ACS Sustainable Chemistry & Engineering,2018,6, 10833.
6.Qiaoyun Cheng, Dongdong Ye, Weitao Yang, Shuhua Zhang, Hongzheng Chen,Chunyu Chang*, and Lina Zhang*, Construction of transparent cellulose-based nanocomposite papers and potential application in flexible solar cells.ACS Sustainable Chemistry & Engineering,2018, 6, 8040.
7.Dongdong Ye, Qiaoyun Cheng, Qianlei Zhang, Yixiang Wang,Chunyu Chang*, Liangbin Li, Haiyan Peng, and Lina Zhang*, Deformation drives alignment of nanofibers in framework for inducing anisotropic cellulose hydrogels with high toughness.ACS Applied Materials&Interfaces,2017, 9, 43154.
8.Tiantian Zhang, Qiaoyun Cheng, Dongdong Ye,Chunyu Chang*, Tunicate cellulose nanocrystals reinforced nanocompoisite hydrogels comprised by hybrid cross-linked networks.ACS Applied Materials&Interfaces,2017, 9, 24230.
9.Qiaoyun Cheng, Dongdong Ye,Chunyu Chang*, Lina 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.
10.Na Peng, Danning Hu, Jian Zeng, Yu Li, Lei Liang,Chunyu Chang*, Superabsorbent cellulose-clay nanocomposite hydrogels for highly efficient removal of dye in water.ACS Sustainable Chemistry & Engineering,2016, 4, 7217.

[1] 2001.9-2005.6
武汉大学|应用化学|本科(学士)|理学学士学位
[2] 2006.9-2011.6
武汉大学|高分子化学与物理|研究生(博士)毕业|理学博士学位

[1] 2011.11-2013.11
 森林科学与生物材料系 | 日本京都大学 
[2] 2011.7-2014.12
 广东省科学院生物工程研究所 
[3] 2015.1-至今
 化学与分子科学学院 | 武汉大学 

[1] 2019.9-至今
中国化学会纤维素专业委员会 委员/秘书

[1] 可吸收型骨折内固定材料
[2] 纳米纤维素分离膜
[3] 高分子水凝胶

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中文主页 > 科学研究
论文成果
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The conversion of nanocellulose into solvent-free nanoscale liquid crystals by attaching long side-arms for multi-responsive optical materials. Journal of Materials Chemistry C. 2020.
Ultrahigh strength nanocomposite hydrogels designed by locking oriented tunicate cellulose nanocrystals in polymeric networks. Composites Part B: Engineering. 197 (15). 2020.
Biocompatible cellulose-based supramolecular nanoparticles driven by host–guest interactions for drug delivery. CARBOHYDRATE POLYMERS. 237. 2020.
Recent developments and prospective food-related applications of cellulose nanocrystals: a review. CELLULOSE. 27 (6). 2991-3011. 2020.
Direct current electric field induced gradient hydrogel actuators with rapid thermo-responsive performance as soft manipulators. JOURNAL OF MATERIALS CHEMISTRY C. 8. 2756-2763. 2020.

专利

张俐娜 ,程巧云 ,汪森 和常春雨. 一种海鞘纳米纤维素超滤膜及其制备方法和应用.
海鞘纤维素纳米晶体/聚合物水凝胶及其制备方法和应用. 2019/09/10.

著作成果

Chunyu Chang ,Junjun Hou ,Peter R. Chang 和Jin Huang. Nanocellulose: From Fundamentals to Advanced Materials (Chapter 2) .Wiley‐VCH
常春雨 和张俐娜. 新型纤维素、甲壳素水凝胶的构建、结构和性能 .知识产权出版社

科研项目
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与港、澳、台合作研究项目. 基于纤维素的三维多功能材料的制备及其在组织工程与再生医学的应用. 2018YFE**.
国家自然科学基金项目. 可加工的液晶态纳米纤维素流体材料:制备、性能及防伪应用. **. 2019/01/01至2022/12/31.
企事业单位委托科技项目. 可吸收骨折内固定材料. 2018/09/01至2021/09/01.
国际合作研究项目. 海洋生物质大分子的链结构表征及功能材料构建. . 2017/06/01至2021/12/01.
省、市、自治区科技项目. 海鞘纤维素纳米纤维(TCNFs)/聚合物复合材料及其增强机理的研究. BK**. 2015/07/01至2018/06/01.

科研团队

在读研究生
已毕业研究生



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中文主页 > 科学研究 > 研究领域







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中文主页 > 科学研究 > 论文成果
[1]. The conversion of nanocellulose into solvent-free nanoscale liquid crystals by attaching long side-arms for multi-responsive optical materials. Journal of Materials Chemistry C. 2020.
[2]. Ultrahigh strength nanocomposite hydrogels designed by locking oriented tunicate cellulose nanocrystals in polymeric networks. Composites Part B: Engineering. 197 (15). 2020.
[3]. Biocompatible cellulose-based supramolecular nanoparticles driven by host–guest interactions for drug delivery. CARBOHYDRATE POLYMERS. 237. 2020.
[4]. Recent developments and prospective food-related applications of cellulose nanocrystals: a review. CELLULOSE. 27 (6). 2991-3011. 2020.
[5]. Direct current electric field induced gradient hydrogel actuators with rapid thermo-responsive performance as soft manipulators. JOURNAL OF MATERIALS CHEMISTRY C. 8. 2756-2763. 2020.
[6]. A simple strategy to design 3-layered Au-TiO2 dual nanoparticles immobilized cellulose membranes with enhanced photocatalytic activity. CARBOHYDRATE POLYMERS. 231. 2020.
[7]. Construction of beta-FeOOH@tunicate?cellulose?nanocomposite hydrogels and their highly efficient photocatalytic properties. CARBOHYDRATE POLYMERS. 229. 2020.
[8]. Additive Printed All-Cellulose Membranes with Hierarchical Structure for Highly Efficient Separation of Oil/Water Nanoemulsions. ACS APPLIED MATERIALS & INTERFACES. 11 (47). 44375-44382. 2019.
[9]. Tunicate cellulose nanocrystals modified commercial filter paper for efficient oil/water separation. JOURNAL OF MEMBRANE SCIENCE. 591. 2019.
[10]. X-ray shielding structural and properties design for the porous transparent BaSO4/cellulose nanocomposite membranes. INTERNATIONAL JOURNAL OF BIOLOGICAL MACROMOLECULES. 139. 793-800. 2019.
[11]. High-Strength and Tough Cellulose Hydrogels Chemically Dual Cross-Linked by Using Low-and High-Molecular-Weight Cross-Linkers. BIOMACROMOLECULES. 20 (5). ?1989-1995. 2019.
[12]. Ultrahigh Tough, Super Clear and Highly Anistropic Nanofibers-Structured Regenerated Cellulose Films. ACS NANO. 13 (4). ?4843-4853. 2019.
[13]. Tunicate Cellulose Nanocrystal Reinforced Polyacrylamide Hydrogels with Tunable Mechanical Performance. CELLULOSE. 25 (11). 6561-6570. 2018.
[14]. UV-Induced Self-Cleanable TiO2/Nanocellulose Membrane for Selective Separation of Oil/Water Emulsion. CARBOHYDRATE POLYMERS. 201. 464-470. 2018.
[15]. Robust Anisotropic Cellulose Hydrogels Fabricated via Strong Self-aggregation Forces for Cardiomyocytes Unidirectional Growth. CHEMISTRY OF MATERIALS. 30 (15). 5175-5183. 2018.
[16]. Robust tunicate cellulose nanocrystal/palygorskite nanorod membranes for multifunctional oil/water emulsion separation. ACS SUSTAINABLE CHEMISTRY & ENGINEERING. 6 (8). ?10833-10840. 2018.
[17]. Construction of transparent cellulose-based nanocomposite papers and potential application in flexible solar cells. ACS SUSTAINABLE CHEMISTRY & ENGINEERING. 6 (6). 8040-8047. 2018.
[18]. Chitin/clay microspheres with hierarchical architecture for highly efficient removal of organic dyes. CARBOHYDRATE POLYMERS. 188. 143-150. 2018.
[19]. Phase transition identification of cellulose nanocrystal suspensions derived from various raw material. JOURNAL OF APPLIED POLYMER SCIENCE. 135 (24). 2018.
[20]. Highly efficient self-healable and dual responsive cellulose based hydrogels for controlled release and 3D cell culture. ADVANCED FUNCTIONAL MATERIALS. 27 (40). 2017.
[21]. Deformation drives alignment of nanofibers in framework for inducing anisotropic cellulose hydrogels with high toughness. ACS APPLIED MATERIALS & INTERFACES. 9 (49). 43154-43162. 2017.
[22]. Dual Physically Cross-Linked Nanocomposite Hydrogels Reinforced by Tunicate Cellulose Nanocrystals with High Toughness and Good Self-Recoverability. ACS APPLIED MATERIALS & INTERFACES. 9 (28). 24230-24237. 2017.
[23]. Tunicate cellulose nanocrystals reinforced nanocompoisite hydrogels comprised by hybrid cross-linked networks. CARBOHYDRATE POLYMERS. 169. 139-148. 2017.
[24]. Fluorescent probe with aggregation-induced emission characteristics for targeted labelling and imaging of cancer cells. RSC ADVANCES. 7 (19). 11282-11285. 2017.
[25]. Facile fabrication of superhydrophilic membranes consisted of fibrous tunicate cellulose nanocrystals for highly efficient oil/water separation. JOURNAL OF MEMBRANE SCIENCE. 525. 1-8. 2017.
[26]. Superabsorbent cellulose-clay nanocomposite hydrogels for highly efficient removal of dye in water. ACS SUSTAINABLE CHEMISTRY & ENGINEERING. 4 (12). 7217-7224. 2016.
[27]. Construction of cellulose/nanosilver sponge materials and their antibacterial activities for infected wounds healing. CELLULOSE. 23 (1). 749-763. 2016.
[28]. Biocompatible cellulose-based superabsorbent hydrogels with antimicrobial activity. CARBOHYDRATE POLYMERS. 137. 59-64. 2016.
[29]. 基于海鞘纤维素的先进功能材料研究进展. 中国科学:化学. 438-451. 2016.
[30]. Facile construction of carbon dots via acid catalytic hydrothermal method and their application for target imaging of cancer cells. NANO RESEARCH. 9 (1). 214-223. 2016.
[31]. High performance films of cellulose butyral derivative having a necklace-like annular structure in the side chains. POLYMER. 55 (16). 3944-3950. 2014.
[32]. Structure and Properties of films fabricated form chitin solution by coagulating with heating. JOURNAL OF APPLIED POLYMER SCIENCE. 131 (4). 2014.
[33]. Synthesis of O-(2,3-dihydroxypropyl) cellulose in NaOH/urea aqueous solution: As a precursor for introducing "necklace-like" structure. JOURNAL OF POLYMER SCIENCE PART A-POLYMER CHEMISTRY. 51 (17). 3590-3597. 2013.
[34]. High strength films with gas-barrier fabricated from chitin solution dissolved at low temperature. JOURNAL OF MATERIALS CHEMISTRY A. 1 (5). 1867-1874. 2013.
[35]. Fabrication and properties of chitin/hydroxyapatite hybrid hydrogels as scaffold nano-materials. CARBOHYDRATE POLYMERS. 91 (1). 7-13. 2013.
[36]. Structure and properties of hydroxyapatite/cellulose nanocomposite films. CARBOHYDRATE POLYMERS. 87 (4). 2512-2518. 2012.
[37]. Efficient?adsorption?of?Hg2+?ions?on?chitin/cellulose?compositemembranes?prepared?via?environmentally?friendly?pathway. CHEMICAL ENGINEERING JOURNAL. 173 (3). 689-697. 2011.
[38]. Swelling?Behaviors?of?pH- and?Salt-Responsive?Cellulose-Based?Hydrogels. MACROMOLECULES. 44 (6). ?1642-1648. 2011.
[39]. Novel Hydrogels Prepared via Direct Dissolution of Chitin at Low Temperature: Structure and Biocompatibility. JOURNAL OF MATERIALS CHEMISTRY. 21 (11). 3865-3871. 2011.
[40]. Cellulose-based Hydrogels: Present Status and Application. CARBOHYDRATE POLYMERS. 84 (1). 40-53. 2011.
[41]. Structure and properties of cellulose/poly(N-isopropylacrylamide) hydrogels prepared by IPN strategy. POLYMERS FOR ADVANCED TECHNOLOGIES. 22 (9). 1329-1334. 2011.
[42]. Structure and properties of hydrogels prepared from cellulose in NaOH/urea aqueous solutions. CARBOHYDRATE POLYMERS. 82 (1). 122-127. 2010.
[43]. Superabsorbent hydrogels based on cellulose for smart swelling and controllable delivery. EUROPEAN POLYMER JOURNAL. 46 (1). 92-100. 2010.
[44]. Primarily Industrialized Trial of Novel Fibers Spun from Cellulose Dope in NaOH/Urea Aqueous Solution. INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH. 49 (22). 11380-11384. 2010.
[45]. Strongly fluorescent hydrogels with quantum dots embedded in cellulose matrices. JOURNAL OF MATERIALS CHEMISTRY. 19 (41). 7771-7776. 2009.
[46]. Properties and applications of biodegradable transparent and photoluminescent cellulose films prepared via a green process. GREEN CHEMISTRY. 11 (2). 177-184. 2009.
[47]. Fabrication?and?characterization?of?novel?macroporous?cellulose-alginate?hydrogels. POLYMER. 50 (23). ?5467-5473. 2009.
[48]. Effects of Freezing/Thawing Cycles and Cellulose Nanowhiskers on Structure and Properties of Biocompatible Starch/PVA Sponges. MACROMOLECULAR MATERIALS AND ENGINEERING. 295 (2). 137-145. 2010.
[49]. Effects of crosslinking methods on structure and properties of cellulose/PVA hydrogels. MACROMOLECULAR CHEMISTRY AND PHYSICS. 209 (12). 1266-1273. 2008.
[50]. Effect of temperature and molecular weight on dissolution of cellulose in NaOH/urea aqueous solution. CELLULOSE. 15 (6). 779-787. 2008.
[51]. Hydrogen-bond-induced?inclusion complex in aqueous cellulose/LiOH/urea solution at low temperature. CHEMPHYSCHEM. 8 (10). 1572-1579. 2007.
[52]. Hydrogels prepared from unsubstituted cellulose in NaOH/Urea aqueous solution. Macromolecular Bioscience. 7 (6). 804–809. 2007.

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中文主页 > 科学研究 > 专利
[1]. 张俐娜 ,程巧云 ,汪森 和常春雨. 一种海鞘纳米纤维素超滤膜及其制备方法和应用.
[2]. 海鞘纤维素纳米晶体/聚合物水凝胶及其制备方法和应用. 2019-09-10.

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中文主页 > 科学研究 > 著作成果
[1]. Chunyu Chang ,Junjun Hou ,Peter R. Chang 和Jin Huang. Nanocellulose: From Fundamentals to Advanced Materials (Chapter 2). Wiley‐VCH.
[2]. 常春雨 和张俐娜. 新型纤维素、甲壳素水凝胶的构建、结构和性能. 知识产权出版社.

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中文主页 > 科学研究 > 科研项目
[1]. 与港、澳、台合作研究项目. 基于纤维素的三维多功能材料的制备及其在组织工程与再生医学的应用. 2018YFE**.
[2]. 国家自然科学基金项目. 可加工的液晶态纳米纤维素流体材料:制备、性能及防伪应用. **.
[3]. 企事业单位委托科技项目. 可吸收骨折内固定材料.
[4]. 国际合作研究项目. 海洋生物质大分子的链结构表征及功能材料构建. .
[5]. 省、市、自治区科技项目. 海鞘纤维素纳米纤维(TCNFs)/聚合物复合材料及其增强机理的研究. BK**.
[6]. 省、市、自治区科技项目. 高性能纤维素基吸水材料的研究与应用. 1.
[7]. 省、市、自治区科技项目. 新型超吸水性纤维素水凝胶的研究. 2015CFB499.
[8]. 国家自然科学基金项目. 基于纤维素缩丁醛衍生物的高抗冲击性薄膜的研究. **.

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中文主页 > 科学研究 > 科研团队

[1] 在读研究生
[2] 已毕业研究生

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