mg真人平台

 

周宏伟
2019-05-06 18:52  

基本信息

姓名: 周宏伟                                                                                                  出生年月:19878

学历: 研究生                                                                                                   学位: 博士

职称: 教授                                                                                                      学院: mg真人平台                                                                                          

联系方式:xatuzhou@163.com

学习经历

20139-20149月:德国马普高分子研究所,界面物理,博士(联合培养)

20099-20147月:中科院成都有机所,高分子化学与物理,博士

20049-20097月:西安交通大学,应用化学,学士

工作经历

201710-至今           mg真人平台   教授

201610-20179    mg真人平台   副教授

201410-20169    mg真人平台   讲师

教育教学

主讲课程:《高分子化学》、《功能高分子材料》、《功能高分子材料》双语课、《高分子先进合成方法》。

研究方向

1)功能水凝胶;(2)柔性电子材料;(3)聚合物光稳定剂;(4)阻燃涂料。

学术成果

获奖及荣誉

1)陕西省普通高校青年杰出人才,2017年;

2)mg真人平台优秀青年教师奖励基金,2017年;

3)mg真人平台“青年英才”,2017年;

4)陕西省化学优秀青年奖,2016年。

主持、参与的科研项目

(1)  国家自然科学基金:化学自振荡反应协同主客体作用构建具有分子"活塞"功能的智能高分子材料,(编号:51373175),80万。

(2)  国家自然科学基金:自振荡水凝胶的可控构筑机制,(编号:51603164),20万。

(3)  国家自然科学基金:长波长、高水溶性、靶向型ONOO-荧光检测体系的精确构筑及构效关系研究。(编号:21807085), 24万。

(4)  陕西省自然科学重大基础研究项目:人工心脏导向的4D打印自驱动水凝胶材料的研制,(编号:2017ZDJC-22),30万。

(5)  陕西省自然科学基金:BZ反应协同“Click”反应构筑超规整网络自振荡智能水凝胶,(编号:2016JQ5036),4万。

(6)  陕西省自然科学基金:面向柔性电子的二元协同网络导电水凝胶调控机制,(编号:2019JM-124),3万。

(7)  陕西省高校科协青年人才托举计划项目:胶束交联智能水凝胶网络的多层次可控构筑问题研究,(编号:20170706),1万。

(8)  横向课题:新型光稳定剂、阻燃涂料、水性乳液的研发,235万。

发表文章

发表SCI收录论文32篇,其中Nature chemistry 1篇,一区论文8篇,影响因子大于3.0论文 16 篇,单篇最高被引102次(google scholar 2019)。

[1] S. S. Xue, Y. P. Wu, M. L. Guo, Y. M. Xia, D. Liu,  H. W. Zhou, W. W. Lei, Self-healable poly(acrylic acid-co-maleic acid)/glycerol/boron nitride nanosheet composite hydrogels at low temperature with enhanced mechanical properties and water retention,Soft Matter,2019,10,1039/C9SM00179D.

[2] Z. W. Wang, H. W. Zhou,* W. X. Chen, Q. Z. Li, B. Yan, X. L. Jin, A. J. Ma, H. B. Liu and W. F. Zhao, Dually Synergetic Network Hydrogels with Integrated Mechanical Stretchability, Thermal Responsiveness, and Electrical Conductivity for Strain Sensors and Temperature Alertors, ACS Applied Materials & Interfaces, 2018, 10, 14045-14054.

[3] H.B. Liu,* H. C. Xiang, Y. B. Ma, Z. J. Li,* Q. J. Meng, H. E. Jiang, H. W. Wu, P. Li, H. W. Zhou,* W. Huang, Flexible, Degradable, and Cost-Effective Strain Sensor Fabricated by a Scalable Papermaking Procedure, ACS Sustainable Chemistry & Engineering, 2018, 6,15749-15755.

[4] J. L. Lai, H. W. Zhou,* M.C. Wang, Y. K. Chen, Z.Y. Jin, S. L. Li, J. J. Yang, X. L. Jin, H. B. Liu, W.F. Zhao, Recyclable, stretchable and conductive double network hydrogels towards flexible strain sensors, Journal of Materials Chemistry C, 2018, 6, 13316-13324.

[5] Z. W. Wang, H. W. Zhou,* J. L. Lai, B. Yan, H. B. Liu, X. L. Jin, A. J. Ma, G. Zhang, W. F. Zhao and W. X. Chen, Extremely stretchable and electrically conductive hydrogels with dually synergistic networks for wearable strain sensors, Journal of Materials Chemistry C, 2018, 6, 9200-9207.

[6] H. W. Zhou, M. S. Chen, Y. L. Liu,* and S. Wu*, Stimuli-Responsive Ruthenium-Containing Polymers, Macromolecular Rapid Communications, 2018, 1800372 (1-13).

[7] X. L. Jin, X. L. Wu, B. Wang, P. Xie, Y. L. He, H. W. Zhou, B. Yan, J. J. Yang, W. X. Chen, X. H. Zhang,* A Reversible Fluorescent Probe for Zn2+ and ATP in Living Cells and in Vivo, Sensors and Actuators B, 2018, 261, 127-134.

[8] H. W. Zhou,* B. Yan, J. L. Lai, H. B. Liu, A. J. Ma, W. X. Chen, X. L. Jin,* W. F. Zhao, G. Zhang, Renewable Biomass Derived Hierarchically Porous Carbonaceous Sponges and Their Magnetic Nanocomposites for Removal of Organic Molecules from Water, Journal of Industrial and Engineering Chemistry, 2018, 58, 334-342.

[9] X. L. Jin,* J. K. Gao, P. Xie, M. C. Yu, T. Wang, H. W. Zhou, A. J. Ma, X. Leng, X. H. Zhang, Dual-functional probe based on rhodamine for sequential Cu2+ and ATP detection in vivo, Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy , 2018,204, 657-664.

[10] H. W. Zhou, B. Yan, J. Li, H.B. Liu, Q. Wang, X.B. Ding, X.L. Jin,* A. J. Ma, W. X. Chen, J. J. Yang, C. Y. Luo, G. Zhang, W. F. Zhao, Poly(NIPAAm-co-Ru(bpy)32+) Hydrogels Crosslinked by Double-bond End-capped Pluronic F127: Preparation, Properties and Coupling with the BZ Reaction, Journal of Materials Science, 2018, 53, 5467-5476.

[11] X. L. Jin, X. L. Wu, P. Xie, S. Liu, J. Wu, T. Wang, H. W. Zhou, X. Leng, W. X. Chen, Reaction-based fluorescent probes for rapid detection of hydrogen sulfide in vivo, Analytical Methods, 2018, 10, 4079-4084.

[12] H. W. Zhou, C. G. Xue, P. Weis, Y. Suzuki, S. L. Huang, K. Koynov, G. K. Auernhammer, R. Berger, H. J. Butt, S. Wu,* Photoswitching of Glass Transition Temperatures of Azobenzene-containing Polymers Induces Reversible Solid-to-liquid Ttransitions, Nature Chemistry, 2017, 9, 145-151.

[13] H. B. liu,* H. E. Jiang, F. Du, D. P. Zhang, Z. J. Li,* H. W. Zhou, Flexible and Degradable Paper-Based Strain Sensor with Low Cost, ACS Sustainable Chemistry & Engineering, 2017, 5, 10538-10543.

[14] G. Zhang, H. Chen, H. W. Zhou, Additive manufacturing of green ceramic by selective laser gasifying of frozen slurry,Journal of the European Ceramic Society,2017, 37,2679-2684.

[15] H. W. Zhou,X. L. Jin, B. Yan, X. J. Li, W. Yang, A. J. Ma, X. H. Zhang, P. Li, X. B. Ding, W. X. Chen,* Mechanically Robust, Tough, and Self-Recoverable Hydrogels with Molecularly Engineered Fully Flexible Crosslinking Structure, Macromolecular Materials & Engineering, 2017, 302, 1700085. (封面)

[16] H. W. Zhou, M. Zhang, J. C. Cao, B. Yan, W. Yang, X. L. Jin, A. J. Ma, W. X. Chen, X. B. Ding, G. Zhang, Highly Flexible, Tough, and Self-Healable Hydrogels Enabled by Dual Cross-Linking of Triblock Copolymer Micelles and Ionic Interactions, Macromolecular Materials & Engineering, 2017, 302, 1600352.

[17] X. L. Jin, X. L. Wu, L. Liu, Z. H. Wang, P. Xie, A. J. Ma, H. W. Zhou, W. X. Chen, Dual-Functional Fluorescein-Based Chemosensor for Chromogenic Detection of Fe3+ and Fluorgenic Detection of HOCl, Journal of Fluorescence, 2017, 27, 2111-2117.

[18] B. Yan, H. W. Zhou, P. Xie, X. L. Jin, A. J. Ma, W. X. Chen, Dynamic and Reversible Intelligent Systems Regulated by Chemical Oscillating Reactions, Progress in Chemistry, 2017, 29, 740-749.

[19] G. H. Xu, H. W. Zhou, J. Li, L. Yin, Z. H. Zheng, X. B. Ding,* Autonomous Fluorescence Regulation in Responsive Polymer Systems Driven by a Chemical Oscillating Reaction, Polymer Chemistry, 2016, 7, 3211-3215.

[20] H. W. Zhou, F. S. Liang, J. Li, X. B. Ding, A. J. Ma, W. X. Chen, C. Y. Luo, G. Zhang, W. Tian, M. Cheng, B. C. Liao, RAFT Polymerization and Dually Responsive Behaviors of Terpyridine-containing PNIPAAm Copolymers in Dilute Solutions, Reactive and Functional Polymers, 2016, 106, 62-68.

[21] H. W. Zhou, X. B. Ding, Smart Polymer Materials Driven by the Belousov-Zhabotinsky Reaction: Topological Structures and Biomimetic Functions, Progress in Chemistry, 2016, 28, 111-120.

[22] H. W. Zhou, Z. H. Zheng, Q. G. Wang, G. H. Xu, J. Li, X. B. Ding,* A modular Approach to Self-oscillating Polymer Systems Driven by the Belousov-Zhabotinsky Reaction, RSC Advances, 2015, 5, 13555-13569.

[23] H. W. Zhou, Y. Yang, G. H. Xu, W. X. Chen, W. Z. Zhang, Q. G. Wang, Z. H. Zheng, X. B. Ding,* Ru(II)(Tpy)2-Functionalized Hydrogels: Synthesis, Reversible Responsiveness, and Coupling with the Belousov-Zhabotinsky Reaction, Journal of Polymer Science Part A: Polymer Chemistry, 2015, 53, 2214-2222.

[24] H. W. Zhou, G. H. Xu, Jie Li, S. H. Zeng, X. L. Zhang, Z. H. Zheng, X. B. Ding, W. X. Chen, Q. G. Wang, W. Z. Zhang, Preparation and Self-healing Behaviors of Poly(acrylic acid)/Cerium Ions Double Network Hydrogels, Macromolecular Research, 2015, 23, 1098-1102.

[25] H. W. Zhou, W. Tian, J. Min, P. Li, S. H. Zeng, W. X. Chen, A. J. Ma, A Selective, Colorimetric and Ratiometric Chemosensor for Hg2+ and Its Application as Test Papers. Analytical Sciences, 2015, 31, 1285-1289.

[26] H. W. Zhou, Y. R. Wang, Z. H. Zheng, X. B. Ding* and Y. X. Peng, Periodic Auto-active Gels with Topologically “Polyrotaxane-interlocked” Structures, Chemical Communications, 2014, 50, 6372-6374.

[27] E. X. Liang, H. W. Zhou, X. B. Ding,* Z. H. Zheng,* Y. X. Peng, Fabrication of a Rhythmic Assembly System Based on Reversible Formation of Dynamic Covalent Bonds in a Chemical Oscillator, Chemical Communications, 2013, 49, 5384-5386.

[28] H. W. Zhou, X. B. Ding,* Z. H. Zheng* and Y. X. Peng, Self-regulated Intelligent Systems: Where Adaptive Entities Meet Chemical Oscillators, Soft Matter, 2013, 9, 4956-4968.

[29] H. W. Zhou, E. X. Liang, Y. Pan, X. B Ding,* Z. H. Zheng* and Y. X. Peng, Self-tunable Thermosensitive Behavior by Reorganizable Architecture Variation in the Belousov–Zhabotinsky Reaction, RSC Advances, 2013, 3, 2182-2185.

[30] B. Wang, C. Ma, Z. C. Xiong, H. W. Zhou, D. L. Chen, Regulating the physical and biological performances of poly(p-dioxanone) by copolymerization with L-phenylalanine,Journal of Applied Polymer Science,2013,15,2311-2319.

[31] H. W. Zhou, E. X. Liang, X. B Ding,* Z. H. Zheng* and Y. X. Peng, Self-regulated Supramolecular Assembly Driven by a Chemical-oscillating Reaction, Chemical Communications, 2012, 48, 10553-10555.

[32] H. W. Zhou, E. X. Liang, Z. H. Zheng,* X. B Ding,* and Y. X. Peng, Smart Polymers Based on Belousov-Zhabotinsky Reaction. Progress in Chemistry, 2011, 23, 2368-2376.

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