王延青博士,男,四川大学特聘研究员,博导,四川省青年人才,国家制革技术研究推广中心特聘专家,四川省专家服务团专家。入选四川大学“双百人才工程”计划(2019-2023),日本学术振兴会(JSPS)外国人特别研究员(2015-2017)。2010年硕士毕业后去日本留学,于2014年获日本北海道大学理学博士学位,毕业后在北海道大学、东京大学及日本企业(日本トリム)从事纳米碳材料的基础及应用研究。在日本期间,主持日本学术振兴会(JSPS)青年学者项目。
2019年加入四川大学高分子科学与工程学院高材系独立开展研究工作,成立先进碳与能源材料应用研究室。主要从事超长碳纳米管的单分散原理、碳基材料的设计制备及其在能源、环境相关领域的应用研究,主要包括:超长碳纳米管在非/弱极性有机体系的分散研究、新型低添加、高倍率快充锂电池导电剂、低温锂电池负极、钠电池硬碳负极、电磁屏蔽/吸波材料、超级电容器、碳基导热/散热材料、柔性显示材料、先进高分子功能材料等,作为第一作者或通讯作者在Advanced Functional Materials、Advanced Science、Nano Energy、Research、ACS Applied Materials & Interfaces、Journal of Materials Chemistry A、Chemical Engineering Journal、Small、Journal of Power Sources、Carbon、Nanoscale等期刊上发表43篇论文,累计引用2500余次。部分成果选为ESI高被引论文(3篇)和期刊封面文章
回国后主持国家自然科学基金委NSAF联合基金重点项目课题、人社部中国留学人员回国创业启动支持计划(重点类)、四川省科技厅国际科技创新合作项目、四川大学高层次人才引进项目、校地合作项目(自贡、遂宁)、企业项目等近10项。申请、授权中国发明专利30余项、美国专利2项、日本专利2项。研究成果获得了山东省科技进步一等奖、国家优秀自费留学生奖学金、中国专利优秀奖(2项)、山东省专利奖、第二届全国博士后创新创业大赛铜奖、四川省特聘专家、JSPS外国青年学者研究奖励、北海道大学私费外国人留学生特待制度、四川大学优秀科技人才奖,入选四川省天府峨眉计划创业领军人才、蓉漂计划、江苏省双创人才、盐都特聘专家等。2024-2025年受邀在江苏省常州市新北区科技局挂职副局长。
课题组同日本北海道大学,东京大学,信州大学,澳大利亚悉尼大学,美国宾夕法尼亚州立大学等多所国际一流高校保持着紧密合作关系。课题组常年招收硕士、博士及博士后等,欢迎邮件联系交流。也欢迎本院及外学院相关专业本科生进入课题组学习和开展研究工作,可以为组内的成员出国留学提供良好的平台。2023年4月推荐课题组1名2018级优秀本科生到东京大学攻读硕士学位,另有数名有意向并准备去日本留学的本科生。
地址:四川大学望江校区高分子学院逸夫科技楼,邮编610065
Email:yanqingwang[at]scu.edu.cn
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回国后代表性成果(2023-2025):
[1] G. Huang, J. Hu, Z. Wang, F. Gao, Y. Zhou, S. Fu, Y. Wang, Z. Shang, C. Gao, L. Luo, Y. Chen,Y. Wang*, Synergistic Dual-Engineering of Hard Carbons via Graphene Oxide Nanosheets: Enabling Ultrahigh ICE Sodium-Ion Batteries through Edge Passivation and Catalytic SEI Design, Advanced Functional Materials n/a(n/a) (2025) e13551
[2] M. Guo, Z. Cao, Y. Liu, Y. Ni, X. Chen, M. Terrones,Y. Wang*, Preparation of Tough, Binder-Free, and Self-Supporting LiFePO4 Cathode by Using Mono-Dispersed Ultra-Long Single-Walled Carbon Nanotubes for High-Rate Performance Li-Ion Battery, Advanced Science 10(13) (2023) 2207355.
[3] H. Zhang, D. Zhang, M. Guo, Z. Huang, X. Wang, C. Gao, F. Gao, M. Terrones,Y. Wang*, Combustion Activation Induced Solid-State Synthesis for N, B Co-Doped Carbon/Zinc Borate Anode with a Boosting of Sodium Storage Performance, Advanced Science 10(14) (2023) 2207751.
[4] M. Guo, H. Zhang, Z. Huang, W. Li, D. Zhang, C. Gao, F. Gao, P. He, J. Wang, W. Chen, X. Chen, M. Terrones,Y. Wang*, Liquid Template Assisted Activation for “Egg Puff”-Like Hard Carbon toward High Sodium Storage Performance, Small 19(39) (2023) 2302583.
[5] D. Zhang, G. Huang, H. Zhang, Z. Zhang, Y. Liu, F. Gao, Z. Shang, C. Gao, Y. Zhou, S. Fu, J. Wei, M. Terrones,Y. Wang*, Soft template-induced self-assembly strategy for sustainable production of porous carbon spheres as anode towards advanced sodium-ion batteries, Chem. Eng. J. (2024) 153646.
[6] H. Zhang, G. Huang, L. Luo, D. Zhang, F. Gao, C. Gao, X. Wang, X. Chen, M. Terrones,Y. Wang*, Biomimetic-Mineralization-Assisted Self-Activation Creates a Delicate Porous Structure in Carbon Material for High-Rate Sodium Storage, ACS Applied Materials & Interfaces 16(18) (2024) 23374-23386.
[7] C. Gao, M. Guo, Y. Liu, D. Zhang, F. Gao, L. Sun, J. Li, X. Chen, M. Terrones,Y. Wang*, Surface modification methods and mechanisms in carbon nanotubes dispersion, Carbon 212 (2023) 118133.
[8] D. Zhang, H. Zhang, F. Gao, G. Huang, Z. Shang, C. Gao, X. Chen, J. Wei, M. Terrones,Y. Wang*, Dual Activation for Tuning N, S Co‐Doping in Porous Carbon Sheets Toward Superior Sodium Ion Storage, Small (2024) 2308684.
[9] H. Zhang, L. Luo, M. Guo, D. Zhang, Z. Huang, X. Wang, F. Gao, X. Chen, M. Terrones,Y. Wang*, Biomimetic mineralization coupling with seeds-induced foaming for optimizing carbon microstructure towards ultrafast sodium ion storage, J. Power Sources 613 (2024) 234875.
[10] G. Huang, H. Zhang, F. Gao, D. Zhang, Z. Zhang, Y. Liu, Z. Shang, C. Gao, L. Luo, M. Terrones,Y. Wang*, Overview of hard carbon anode for sodium-ion batteries: Influencing factors and strategies to extend slope and plateau regions, Carbon 228 (2024) 119354.
[11] M. Guo, H. Zhang, L. Luo, Z. Huang, D. Zhang, C. Gao, F. Gao, X. Chen, M. Terrones,Y. Wang*, Regulation of collagen-derived carbon material structures through in-situ precipitation templating for fast sodium storage, Carbon 217 (2024) 118631.
[12] Y. Wang, Z. Zeng, Y. Liu, G. Huang, P. Zhang, X. Ma, F. Gao, Z. Zhang, Y. Wang,Y. Wang*, Enhancing Lithium-Ion Batteries with a 3D Conductive Network Silicon–Carbon Nanotube Composite Anode, ACS Applied Materials & Interfaces 16(49) (2024) 67791-67802.
[13]J. Wei, H. Chen, F. Pan, H. Zhang, T. Yuan, Y. Fang, Z. Bai, K. Yang, Y. Li, H. Ping,Y. Wang*,Q. Wang, Z. Fu, 3D-printable liquid metal-based hydrogel for use as a multifunctional epidermal sensor, Nanoscale 17(10) (2025) 5681-5688
[14] J. Wei, F. Pan, H. Ping, K. Yang,Y. Wang*, Q. Wang, Z. Fu, Bioinspired Additive Manufacturing of Hierarchical Materials: From Biostructures to Functions, Research 6 (2023) 0164,
