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李玉超
2020-06-01 由:liyuchao发布 浏览: 阅读次数: 次
个人简介
个人概况:
姓名:李玉超
职称:教授
最后学历:博士
最后学位:研究生
毕业院校:香港城市大学
专业:高分子材料与工程
研究方向:储能电介质;复合材料;功能高分子
Email: liyuchao@lcu.edu.cn
联系电话:0635-8230936
课题组主页:(欢迎报考我组研究生!)
https://www.x-mol.com/groups/liyuchao
学术档案:ORCID
学习及工作经历:
2020.01- 至今 聊城大学材料与工程学院 教授
2013.01–2019.12 聊城大学材料与工程学院 副教授
2010.08–2012.12 聊城大学材料与工程学院 讲师
2007.08–2010.07 香港城市大学,博士 材料学
2004.09–2007.01 华侨大学,硕士 材料学
2000.09–2004.07 济南大学,学士 材料科学与工程
2025.02-2025.08, 伦敦帝国理工学院,Tribology组,国家公派高级访问学者(合作导师:Janet Wong教授);
2017.02-2018.01, 悉尼大学, CAMT组, 国家公派高级访问学者(合作导师:Yiu-Wing Mai院士);
2016.01-2016.03, 南方科技大学材料系, 高级访问学者(合作导师:卢周广教授);
2014.02-2014.03, 香港城市大学, 物理与材料系, RA (合作导师:SC Tjong院士);
2013.07-2016.06, 青岛大学, 博士后(合作导师: 唐建国教授);
2012.02-2012.03, 香港城市大学, 物理与材料系, RA(合作导师:Robert Li教授);
学术兼职:
中国复合材料学会介电高分子专委会委员、副秘书长;
山东颗粒学会理事、副秘书长;
山东电子学会电子元件与材料专业委员会,常务委员;
聊城青年科技创新人才协会,副会长;
国家科技专家库在库专家;
青岛大学材料学院兼职博导;
“Engineered Science”、“聊城大学学报”青年编委。
研究领域和兴趣:
储能电介质,高/低介电高分子,阻燃环保复合材料;
主讲课程 :
本科生课程:《材料科学基础》、《材料表界面》、《高分子材料专业英语》
研究生课程:《新型功能材料》
承担课题:
2026.01-2028.12,电介质材料摩擦电储能提升机制研究,山东省2025“外专双百计划”人才类项目(WSR2025087),在研;
2024.10-2026.9,新型高阻燃环保汽车隔热材料研发及产业化,科技型中小企业创新能力提升工程(2024TSGC0945),在研;
2022.01-2025.12,模版法反向构筑高储能柔性电介质材料及其与介电性能关联机制研究,国家自然科学基金面上项目(52177020),已结题;
2019.07-2022.06,改性氧化石墨烯/PEO固态聚合物电解质界面设计,机械强度及钠离子传输机制研究,山东省自然科学基金面上项目(ZR2019MB053),已结题;
2015.01- 2017.12,石墨烯-无机粒子协同增强高介电PVDF电介质的构筑、电性能和机理研究,国家自然科学基金青年基金(51407087),已结题;
2012.01-2014.12,石墨填充聚偏氟乙烯高介电常数杂化材料的研究,山东省中青年科学基金(省博士基金)(BS2011CL012),已结题;
2021.08-2022.07,汽车内饰PVC板材耐执抗弯性能研究,企业横向项目(K21LD36),已结题;
2019.04-2020.03,环境友好PP蜂窝板材料研究,企业横向项目(K19LD06),已结题;
2023.07-2024.07,发动机舱隔热棉高阻燃性能研究,企业横向课题(K23LD58),已结题;
2024.01-2024.12,新型光电复合缆阻燃与电气特性研究,企业横向项目(K24LD15),在研;
代表性成果:(论文及专利等)
截至目前,以第一作者或通讯作者发表SCI,EI和核心收录论文70余篇,H指数34。主编《金属材料专业英语》规划教材一部,英文书籍章节2章,成果详见:http://orcid.org/0000-0003-0839-2099
l 代表性论文:
(1). Li, Yufan, Tianhua Wang, Jiaqi Zhao, Li, Yuchao* et al. Quantum‐confined Boron Nitride Quantum Dots–Polyimide Composites Achieve Exceptional Dielectric Strength, Energy Density, and Thermal Dissipation at Ultralow Loading. Advanced Functional Materials 36 (2025): e19408. https://doi.org/10.1002/adfm.202519408.
(2). Yang, Yongzhi, Xiaoqian Liu, Li, Yuchao*, et al. Facile Construction of Copper Nanoparticles Decorated 3D Calcium Titanate toward Tunable High Dielectric and Energy Storage Epoxy Composites. Ceramics International 51 (2025): 10582. https://doi.org/10.1016/j.ceramint.2024.12.489.
(3). Huang, Wenjie, Mengyu Xiao, Li, Yuchao* et al. Physical Crosslinking Optimized High-Temperature Capacitive Energy Storage of Polyetherimide Nanocomposites with Ultralow C60 Particles. Composites Science and Technology 267 (2025): 111194. https://doi.org/10.1016/j.compscitech.2025.111194.
(4). Li, Yongming, Zhen Wang, Dongmei Zhang, Li, Yuchao* et al. Improved Dielectric and Energy Storage Capacity of PVDF Films via Incorporating Wide-Bandgap Silicon Oxide Decorated Graphene Oxide. Composites Communications 48 (2024): 101923. https://doi.org/10.1016/j.coco.2024.101923.
(5). Zhang, Dongmei, Yufan Li, Li, Yuchao* et al. Synergistically Enhanced Dielectric, Insulating and Thermally Conductive Performances of Sandwich PMMA Based Dielectric Films. Progress in Natural Science: Materials International 34, (2024): 591. https://doi.org/10.1016/j.pnsc.2024.05.004.
(6). Zhang, Dongmei, Yongzhi Yang, Xiaoqian Liu, Li, Yuchao* et al. Enhanced Dielectric and Energy Storage Capacity of Polymer Dielectrics via Reverse Infiltration of Poly(Vinylidene Fluoride)–Boron Nitride into a Three-Dimensional Barium Titanate Network. ACS Applied Electronic Materials 6 (2024): 6208. https://doi.org/10.1021/acsaelm.4c01072.
(7). Bi, Xueqing; Xue, Wenqing; Yang, Yongzhi; Wang, Zhen; Wang, Zi; Li, Yuchao* et al. (2023): Synergistic enhancement in permittivity and energy storage capacity of epoxy dielectrics via constructing continuous 3D BaTiO3 network collaborated with graphene oxide. Composites Communications 40, p. 101575. DOI: 10.1016/j.coco.2023.101575.
(8). Tian, Yaya; Zheng, Ming-Sheng*; Li, Yuchao*; Xu, Chuqi; Zhang, Yiyi; Liu, Wei et al. (2023): Intrinsic-designed polyimide dielectric materials with large energy storage density and discharge efficiency at harsh ultra-high temperatures. Materials horizons, 2023, 10: 5835. DOI: 10.1039/d3mh01267k.
(9). Wan, Baoquan; Zheng, Ming-Sheng; Li, Yuchao*; Mai, Yiu-Wing; Zha Jun-Wei* et al. (2023): Recyclability and Self-healing of Dynamic Cross-linked Polyimide with Mechanical/Electrical Damage. Energy & Environ Materials 6, e12427. DOI: 10.1002/eem2.12427.
(10). Wang, Zhen; Xue, Wenqing; Yang, Yongzhi; Li, Yuchao*; Wang, Shuangshuang; Zhan, Yanhu et al. (2023): PMMA brush-modified graphene for flexible energy storage PVDF dielectric films. Composites Communications 37, p. 101411. DOI: 10.1016/j.coco.2022.101411.
(11). Li, Yuchao; Bi, Xueqing; Wang, Shuangshuang; Liu, Hong-Yuan; Mai, Yiu-Wing et al. (2020): Core-shell structured polyethylene glycol functionalized graphene for energy-storage polymer dielectrics: Combined mechanical and dielectric performances. Composites Science and Technology, p. 108341.
(13). Fu, Xuelian; Li, Yuchao*; Liao, Chengzhu; Gong, Weiping; Yang, Mingyang; Li, Robert Kwok Yiu et al. (2019): Enhanced electrochemical performance of solid PEO/LiClO4 electrolytes with a 3D porous Li6.28La3Zr2Al0.24O12 network. Composites Science and Technology 184, p.107863.
(14). Yuchao Li*, Chengzhu Liao, Sie Chin Tjong*,(2019) Electrospun polyvinylidene fluoride-based fibrous scaffolds with piezoelectric characteristics for bone and neural tissue engineering,Nanomaterials, 9(7): 952. DOI: 10.3390/nano9070952 【Review】
(16). Yuchao Li*, Chengzhu Liao, Sie Chin Tjong*,(2019) Synthetic biodegradable aliphatic polyester nanocomposites reinforced with nanohydroxyapatite and/or graphene oxide for bone tissue engineering applications, Nanomaterials, 9(4):590 【Review】
(17). Li, Yuchao*; Zhang, Dongmei; Wang, Shuangshuang; Zhan, Yanhu; Yin, Jie; Mai, Yiu-Wing et al. (2019): Fe3O4 decorated graphene/poly(vinylidene fluoride) nanocomposites with high dielectric constant and low dielectric loss. Composites Science and Technology 171, pp. 152-161.
(18). Li, Yuchao*; Tang, Jianguo; Huang, Linjun; Wang, Yao; et al. (2015): Facile preparation, characterization and performance of noncovalently functionalized graphene/epoxy nanocom-posites with poly(sodium 4-styrenesulfonate). Composites Part A: Applied Science and Manufacturing 68, pp. 1-9.
l 书籍与专著:
(1). Li, Yuchao. Polyimide Nanocomposites for Electromagnetic Interference Shielding. Functional Polyimide Dielectrics: Structure, Properties, and Applications, 1 st edition. Wiley, 2025. https://doi.org/10.1002/9783527849031.ch7.
(2). Yuchao Li, S.C. Tjong* Chapter 26: Nonlinear DC Response in Polymer Nanocomposites, [B] "Physical Properties of Polymer Nanocomposites", Published in Aug. 2010.
(3). 李玉超,张冬梅,查俊伟,《金属材料专业英语》,2022.04. ISBN: 978-7-5024-9368-4.
l 专利:
李玉超;杨永志;张冬梅;邵强;许艳峰,一种聚合物储能电介质材料及其制备方法,ZL 2024 1 0119541.X,授权公告日:2024年08月02日
l 获奖情况:
(1) 2020.07,高介电低损耗聚合物储能电介质材料研究,聊城大学自然科学一等奖,1/6;
(2) 2026.04, 功能聚合物储运体系结构设计及其性能提升机制,聊城市科技创新三等奖,1/4/
