教育背景2015.4 − 2016.5 博士后加拿大滑铁卢大学 (University of Waterloo) 纳米材料2011.9 − 2015.4 工学博士加拿大滑铁卢大学 (University of Waterloo) 化学工程2009.9 − 2011.6 理学硕士加拿大滑铁卢大学 (University of Waterloo) 无机化学2005.9 − 2009.6 工学学士华侨大学 (Huaqiao University) 材料工程 获奖经历2019.4 中国化学会元素周期表代言2018.6 东南大学至善青年学者A类2017.4 江苏省双创计划(海外名校类双创博士)2015.2 国家优秀自费留学生奖学金2013.11 英联邦伊丽莎白女王二世自然科学与技术奖2012.5 滑铁卢大学自然科学学院奖学金代表性论文1. P. Feng§, S. Ye§, R. Wang, W. She, J. Liu,* Z. Sun,*Wei Zhang.*Hydrogel Networks as Underwater Contact Adhesives for Diverse Surfaces. Materials Horizons. 2020, DOI: 10.1039/D0MH00176G.(IF: 14.332)2. Wei Zhang,* R. Wang, Z. Sun,* X. Zhu, Q. Zhao,* T. Zhang, A. Cholewinski, F. K. Yang, B. Zhao,* R. Pinnaratip, P. K. Forooshani, B. P. Lee.* Catechol-functionalized hydrogels: biomimetic design, adhesion mechanism, and biomedical applications. Chemical Society Reviews. 2020, 49, 433-464. (邀稿,IF: 40.503)3. Wei Zhang§,* J. Ma§, W. Zhang, P. Zhang, W. He, J. Chen, Z. Sun.* A multidimensional nanostructural design towards electrochemically stable and mechanically strong hydrogel electrodes.Nanoscale. 2020, 12, 6637-6643. (IF: 7.031)4. C. Lu, L. Yang, B. Yan, L. Sun, P. Zhang, Wei Zhang,* Z. Sun.* Nitrogen-Doped Ti3C2 MXene: Mechanism Investigation and Electrochemical Analysis. Advanced Functional Materials. 2020, 2000852. (IF: 15.621)5. Wei Zhang*, Pan F., Chen J.*, Sun Z.*, Zhao B., Electrically conductive hydrogels for flexible energy storage systems. Progress in Polymer Science, 2019, 88, 220-240. (邀稿,IF: 24.558)6. Elsiddig Z.A., Xu H., Wang D., Wei Zhang*, Guo X., Zhang Y., Sun Z., Chen J.*, Modulating Mn4+ Ions and Oxygen Vacancies in Nonstoichiometric LaMnO3 Perovskite by a Facile Sol-Gel Method as High-Performance Supercapacitor Electrodes. Electrochimica Acta, 2017, 253: 422-429. (IF: 5.116)7. Elsiddig Z.A., Wang D., Xu H., Wei Zhang*, Zhang T., Zhang P., Tian W., Sun Z., Chen J.*, Three-dimensional nitrogen-doped graphene wrapped LaMnO3 nanocomposites as high-performance supercapacitor electrodes. Journal of Alloys and Compounds, 2018, 40: 148-155. (IF: 3.779)8. Wei Zhang, Z. Pan, F. K. Yang, B. Zhao*. A Facile In-Situ Approach to Polypyrrole Functionalization through Bio-Inspired Catechols. Advanced Functional Materials. 2015, 25, 1588-1597. (IF: 15.621)9. Wei Zhang, Y. Zhou, K. Feng, J. Trinidad, A. Yu, B. Zhao*. Morphologically Controlled Bio-Inspired Dopamine-Polypyrrole Nanostructures with Tunable Electrical Properties. Advanced Electronic Materials. 2015, 1, 1500205. (IF: 5.466)10. Wei Zhang, F. K. Yang, Z. Pan, J. Zhang, B. Zhao*. Bio-inspired Dopamine Functionalization of Polypyrrole for Improved Adhesion and Conductivity. Macromolecular Rapid Communication. 2014, 35, 350-354. (IF: 4.441)11. Wei Zhang, F. K. Yang, Y. Han, R. Gaikwad, Z. Leonenko, B. Zhao*. Surface and Tribological Behaviors of the Bioinspired Polydopamine Thin Films Under Dry and Wet Conditions. Biomacromolecules. 2013, 14, 394-405. (IF: 5.738) 专利情况1、B. Zhao, Wei Zhang, F. K. Yang. “Fabrication, Composition and Application of Electrically Conductive Catechol-Polypyrrole Nanofibers”美国专利号:US62/054, 192 −2014. 学术会议1、“Development of Novel Polydopamine-Polypyrrole Nanofibers for Electrically Conductive AdhesiveApplications” Pan Pacific Microelectronics Symposium. 夏威夷,美国 – 2015.2. 2、“The Application of Using Functionalized Polypyrrole Nanofibers as Co-fillers for Electrically Conductive Adhesive” 41 Annual Meeting of Adhesion Society. 圣地亚哥,美国 – 2015.5.(邀请学术报告)3、“Synthesis of Electrically Conductive Polydopamine-Polypyrrole Nanocomposites” 64 Canadian Chemical Engineering Conference. 尼亚加拉大瀑布,加拿大 – 2014.10. 4、“Fabrication and Characterization of Electrically Conductive Silver-Polydopamine-PolypyrroleNanocomposites” IEEE Nano: 14th International Conference on Nanotechnology. 多伦多,加拿大 – 2014.8.5、“Polydopamine Nanoscale Thin Films as Multifunctional Coatings in Air and Water” International Conference on Nanoscience and Technology. 巴黎, 法国 – 2013.9. 媒体报道1、“导电聚合物的多功能仿生修饰:通过多巴胺调控聚吡咯的纳米结构和电学性能” WileyMaterials Views China 主页报道 – 2016.1. http://www.materialsviewschina.com/2016/01/19285/2、“Zebra mussel inspires human body super glue” University of Waterloo Magazine. 滑铁卢大学主页报道 – 2015.6.https://uwaterloo.ca/magazine/spring-2015/features/zebra-mussel-inspires-human-body-super-glue3、“First ReMAP Project Presented at the 2015 SMTA Pan-Pacific Symposium” Refined Manufacturing Acceleration Process. 加拿大工业部网页报道 – 2015.2. http://remapnetwork.org/2015/02/02/first-remap-project-presented-at-the-2015-smta-pan-pacific-symposium/4、“ZebraMussel-inspired Electrically Conductive Polymer Nanofiber” Biomedical Discussion Group Lecture. Youtube 邀请学术讲座 – 2015.1. https://www.youtube.com/watch?v=CAC5S5h2DAc