IntroductionProfessor Yu Yunhua has served as a Professor of College of Materials Science and Engineering at Beijing University of Chemical technology (BUCT) since 2012. After graduating with the master’s degree at BUCT in 1994, she joined BUCT faculty till now. She was promoted to associate professor in 2003 and received a Ph.D. degree at BUCT in 2006. She had an experience as a visiting professor at Washington State University in 2011. Her research focuses on interfacial engineering of carbon-fiber reinforced composites (CFRP), advanced carbon materials and polymer-matrix composites for energy storage and conversion. EducationWork ExperienceSocial PositionSocial ActivitiesResearchResearch field: 1. Organic/Inorganic Functional Nanocomposites used as electrodes and electrolytes for Energy Storage and Conversion: synthesis and processing technologies (electrospinning techniques, hydrothermal and solvothermal synthesis, physical/chemical doping modification); characterization of structures and properties including mechanical, thermal and electrical properties, and some functional properties such as electrochemical performance, etc. 2. Biomass-derived Carbon Materials for Energy Storage: processing technologies (activation, carbonization, doping, coating, etc.), characterization of structure and some functional properties such as adsorption, electrochemical performance, etc. 3. Green Composites, Advanced Polymer matrix Composites: materials manufacturing technologies; composites interface issues; mechanical properties; durability; environmental aging behavior and mechanism analysis TeachingShe undertakes the first batch of state-level first-class undergraduate courses of Introduction to Materials, all-English courses of Introdection to Materials Science and Engineering for overseas undergraduate students, and all-English courses of advanced Composites for overseas graduate students, presided over or participated in more than 10 school-level, Beijing and national education reform projects, participated in the compilation of 1 English textbook, and was selected as a demonstration course of ideological and political education in Beijing, as well as famous teachers and teams. PostgraduatesFundingVertical ProjectHorizontal ProjectPublicationsRepresentative publications: 1. Zhiqi Lu, Ji Li, Jiaqi An, Xiaoyue Zeng, Jinle Lan,* , Yunhua Yu ,* Xiaoping Yang, Pre-oxidized and composite strategy greatly boosts performance of polyacrylonitrile/LLZO nanofibers for lithium-metal batteries. Journal of Colloid and Interface Science 2024, 664: 882–892 (10.1016/j.jcis.2024.03.058) 2. Xin Cai , Zhenwei Cai , Haocheng Yuan , Wenjie Zhang , Shen Wang , Haijun Wang , Jinle Lan * , Yunhua Yu * , Xiaoping Yang, An initiator-free and solvent-free in-situ self-catalyzed crosslinked polymer electrolyte for all-solid-state lithium-metal batteries Journal of Colloid and Interface Science 2023, 648: 972–982 (10.1016/j.jcis.2023.06.059) 3. Wenjie Zhang, Haijun Wang, Zhenyu Tang, Jinle Lan,* , Yunhua Yu,* Yingdan Zhu, Xiaoping Yang, Mechanically robust epoxy resin-based gel polymer electrolyte stabilizing ion deposition for high-performance lithium metal batteries Materials Chemistry and Physics 2022, 287: 126324 (10.1016/j.matchemphys.2022.126324 ) 4. Ruoqian Jiang,a Haocheng Yuan, Xianbin Wei,Haijun Wang,Hee-Jae Shin, Jinle Lan* , Yunhua Yu*, Xiaoping Yang, Constructing robust and freestanding MXene/Si@C core–shell nanofibers via coaxial electrospinning for high performance Li-ion batteries Mater. Chem. Front., 2021, 5, 8218 ( 10.1039/d1qm00823d) 5. Haijun Wang, Haocheng Yuan, Wenwei Zhan, Young-seak Lee, Hee-jae Shin, Xianbin Wei, Qing Cai, Jinle Lan*, Yunhua Yu*, Xaoping Yang, Integrated N, P co -doped and dense carbon networks produced by a chemical crosslinking strategy: Facilitating high gravimetric/ volumetric performance sodium ion batteries,Carbon,2020,165: 204-215 (10.1016/j.carbon.2020.04.002) 6. Haocheng Yuan; Fengxin Ma; Xianbin Wei; Jin‐Le Lan*; Yuan Liu; Yunhua Yu*; Xiaoping Yang; Ho Seok Park*, Ionic‐Conducting and Robust Multilayered Solid Electrolyte Interphases for Greatly Improved Rate and Cycling Capabilities of Sodium Ion Full Cells. Advanced Energy Materials. 2020 , 10, 2001418 (10.1002/aenm.202001418) AwardsOverview of scientific research situation:
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