范润华

  范润华，二级教授。东方英才计划领军项目入选者（上海领军人才）、教育部新世纪优秀人才支持计划入选者。主要从事新型电工材料与器件教学科研工作，在电磁超材料方面做出了开创性工作，主持国防科研项目、上海市教委科研创新自然科学重大项目、山东省自主创新与成果转化专项、国家自然科学基金等项目，发表的学术论文中有50余篇入选ESI高被引论文，获教育部科技进步一等奖等科技奖励7项。多次被评为山东大学优秀博士学位论文指导教师。参与组织了科学出版社国家出版基金项目“超材料前沿交叉科学丛书”，参与组织了历届全国超材料大会（2019.11西安、2023.5南京、2024.5乌镇、2025.5深圳、2026.5济南）。

（一）近几年科研项目

1.负介电材料逾渗构型设计与解耦降损机制，国家自然科学基金，100万元，2025-2028，主持

2.电磁功能材料，企业委托项目，220万元，2024-2026，主持

3.射频介电近零材料的低频共振机理，国家自然科学基金，54万元，2023-2026，主持

4.超构叠层材料性能调控与应用基础,上海市教委科创计划自然科学重大项目，300万元，2019-2023，主持

5.基于负介电材料的三明治结构叠层电容器,国家自然科学基金，52万元，2019-2022，主持

6.高磁低损软磁复合材料在高效电机中的应用技术,上海市科委项目，80万元，2018-2022，主持

（二）近几年科研获奖情况

1.负介电材料的实验发现，上海市自然科学二等奖，授奖单位：上海市人民政府，2025.6，排1

2.逾渗构型超材料构建原理，教育部自然科学二等奖，授奖单位：教育部，2023.5，排1

3.金属陶瓷材料的微结构调控和超常性质，山东省自然科学二等奖，授奖单位：山东省人民政府，2018.3，排1

（三）代表性论著

1. 范润华著，负介材料，北京：科学出版社，2024.11

2. Xie, Peitao; Wu, Haikun; Cheng, Zhenxiang*; Liu, Mingxiang; Liu, Yuan; Pang, Weikong*; Fan, Runhua; Liu, Yao*. Ultralow-Frequency Epsilon-Near-Zero States in 3D-Printed High-Entropy Alloy Metacomposites for Ultra-Thin Perfect RF Absorption. Advanced Materials, 2026, DOI: 10.1002/adma.202516951

3. Ren, Zengliang; Lei, Li; Zhu, Linwei; Xia, Shuimiao; Fan, Runhua; Dastan, Davoud; Cui, Hongzhi; Shi, Zhicheng*. Remarkably Boosted High-Temperature Electrostatic Energy Storage of Polyetherimide Film Induced by TiO2@Au@AlOx@Au Core-shell Nanofibers. Advanced Functional Materials, v 35, n 11, March 11, 2025(Cited: 24)

4. Liu, Guanfei; Zhu, Linwei; Chang, Zelong; Dastan, Davoud; Liu, Yao*; Fan, Runhua; Shi, Zhicheng*. Significantly Enhancing the High-temperature Breakdown and Capacitive Performances of Dielectric Polymers via Incorporating Alumina Nanotubes as Equivalent Crosslinking Points. Advanced Functional Materials, v 35, n 32, August 8, 2025(Cited: 11)

5. Ren, Zengliang; Shi, Zhicheng*; Tang, Qingyang; Xia, Shuimiao; Sun, Liang; Fan, Runhua; Cui, Hongzhi; Wang, Hong*. Core-shell TiO2@Au Nanofibers Derived from a Unique Physical Coating Strategy for Excellent Capacitive Energy Storage Nanocomposites. Advanced Functional Materials, v 34, n 36, September 4, 2024(Cited: 67)

6. Sun, Kai; Wang, Chong; Tian, Jiahong; Zhang, Zheng; Zeng, Ni; Yin, Rui; Duan, Wenxin; Hou, Qing; Zhao, Yaman; Wu, Haikun*; Fan, Runhua. Magnetic-Driven Broadband Epsilon-Near-Zero Materials at Radio Frequency. Advanced Functional Materials, v 34, n 2, January 9, 2024(Cited: 99)

7. Wei, Zaixin; Zhao, Lanling; Wang, Zhongyang; Xu, Ciqun; Zhang, Yan; Liu, Yao*; Gao, Weibo*; Fan, Runhua. Experimental observation of purely resistive effect in epsilon-near-zero transition metal perovskite. Acta Materialia, v 266, March 1, 2024(Cited:13)

8. He, Qifa; Sun, Kai; Shi, Zhicheng*; Liu, Yao; Fan, Runhua*. Polymer dielectrics for capacitive energy storage: From theories, materials to industrial capacitors. Materials Today, v 68, p 298-333, September 2023(Cited:145)

9. Wang, Zhongyang; Sun, Kai*; Xie, Peitao; Hou, Qing; Liu, Yao; Gu, Qilin*; Fan, Runhua*. Design and analysis of negative permittivity behaviors in barium titanate/nickel metacomposites. Acta Materialia, v 185, p 412-419, 15 February 2020(Cited:203)

10. Xie, Peitao; Zhang, Zidong*; Wang, Zhongyang; Sun, Kai; Fan, Runhua*. Targeted double negative properties in silver/silica random metamaterials by precise control of microstructures. Research, v 2019, 2019(Cited:184)

11. Peitao Xie, Hongyu Li, Biao He, Feng Dang*, Jing Lin*, Runhua Fan*, Chuanxin Hou, Hu Liu, Jiaoxia Zhang, Yong Ma, Zhanhu Guo*. Bio-gel derived nickel/carbon nanocomposites with enhanced microwave absorption, Journal of Materials Chemistry C, 2018,6(32):8812-8822(Cited: 364)

12. Kai Sun, Peitao Xie, Zhongyang Wang, Tongming Su, Qian Shao, JongEun Ryu, Xihua Zhang, Jiang Guo, Akash Shankar, Jianfeng Li, Runhua Fan*, Dapeng Cao*, Zhanhu Guo*.Flexible polydimethylsiloxane/multi-walled carbon nanotubes membranous metacomposites with negative permittivity,Polymer, 2017, 125:50-57(Cited: 452)

13. Yin, Longwei*; Zhang, Zhiwei*; Li, Zhaoqiang; Hao, Fengbin; Li, Qun; Wang, Chengxiang; Fan, Runhua; Qi, Yongxin. Spinel ZnMn2O4 nanocrystal-anchored 3D hierarchical carbon aerogel hybrids as anode materials for lithium ion batteries. Advanced Functional Materials, v 24, n 26, p 4176-4185, July 9, 2014 (Cited:175)

14. Zhang, Zhiwei; Li, Zhaoqiang; Hao, Fengbin; Wang, Xuekun; Li, Qun; Qi, Yongxin*; Fan, Runhua; Yin, Longwei*. 3D interconnected porous carbon aerogels as sulfur immobilizers for sulfur impregnation for lithium-sulfur batteries with high rate capability and cycling stability. Advanced Functional Materials, v 24, n 17, p 2500-2509, May 2, 2014 (Cited:240)

15. Zhi-cheng Shi, Run-hua Fan*, Ke‐lan Yan, Kai Sun, Meng Zhang, Cheng‐guo Wang*, Xiang‐fa Liu, Xi‐hua Zhang. Preparation of iron networks hosted in porous alumina with tunable negative permittivity and permeability, Advanced Functional Materials, 2013,23(33):4123-4132 (Cited: 207)

16. Zhi‐cheng Shi, Run‐hua Fan*, Zi‐dong Zhang, Lei Qian*, Meng Gao, Mo Zhang, Li‐tuo Zheng, Xi‐hua Zhang, Long‐wei Yin.Random composites of nickel networks supported by porous alumina toward double negative materials, Advanced Materials, 2012, 24(17):2349-2352(Cited: 315)