个人简介
还献华,工学博士,硕士生导师,中国复合材料学会会员,中国电源学会会员。面向国家重大战略需求,长期从事电工材料领域的前沿研究,主要方向包括:1)面向雅江±800kV特高压直流输电工程的高性能绝缘材料;2)面向隐身功能/结构强度一体化需求的先进电磁防护材料;3)面向资源循环利用的电工复合材料回收再利用技术。迄今在 Advanced Functional Materials、Composites Part B、IEEE Transactions on Dielectrics and Electrical Insulation、Small 等高水平期刊发表论文20余篇,其中2篇入选ESI全球前1%高被引论文;授权发明专利10余项。参编“十四五”战略性新兴领域高等教育系列教材《高端装备构造原理》及“十三五”国家重点出版物出版规划项目《先进复合材料系列丛书》复合材料回收再利用分册。荣获2023年度中国复合材料学会卓越论文工程奖。担任Scientific Reports期刊编委,Composites Part B、Chemical Engineering Journal等多个高水平SCI期刊审稿人,曾受邀在第五届中国国际复合材料科技大会等重要学术会议上作报告。
课题组依托电能高效高质转化全国重点实验室和高电压与绝缘技术研究所,科研经费充足,管理灵活自由,无需日常打卡。团队与国家电网、怀柔国家实验室、南方电网科学研究院、阳光电源股份有限公司、中车集团等单位保持紧密合作,为学生提供良好的科研与就业推荐渠道;同时与清华大学、西安交通大学等电气强校开展联合研究,对于有志深造的同学,将全力指导论文与专利的撰写与发表,并积极推荐至国内一流高校继续深造。在研究生培养与就业指导方面,所指导的首届研究生(2023级)已分别获得国网山东省电力公司潍坊市局和常州博瑞电力自动化设备有限公司的录用通知,其中一名获得了研究生国家奖学金。
热忱欢迎对先进电工材料研究感兴趣的同学加入攻读研究生,2026级仍有名额。
在本科生指导方面,目前指导立项省级和校级大学生创新创业训练计划项目各两项,指导本科生申请发明专利1项(已获得授权)。指导学生获得全国大学生技术创新创业大赛全国三等奖及省赛一等奖、全国大学生高电压与等离子体科技创新竞赛全国二等奖。目前有计划指导本科生开展 AI for Science 方向研究并发表 SCI 论文,欢迎有兴趣的同学联系交流。
正在主持的科研项目包括:
1) 高降解率环氧树脂绝缘材料批量制备及环保型固态绝缘变压器研制,科技部国家重点研发计划项目子课题,2023-2026,主持
2) 结构-吸波一体化碳纤维复合材料跨尺度界面设计及异质界面电荷运动研究,国家自然科学基金青年基金项目,2025-2027,主持
3) 高压直流固体绝缘高阻化材料改性方法研究及材料性能分析,南方电网科学研究院科技项目,2023-2026,主持
4) 先进电磁兼容复合材料界面极化调控机制与构效关系研究,安徽省自然科学基金青年基金,2024-2026,主持
5) 环氧绝缘材料交联网络演化及绝缘性能研究,中央高校基本科研业务费,2024-2025,主持
已发表学术论文:
2025
[1] Huan, X., Liu, S., Zhou, E., et al. Multi-Stimuli-Responsive Dielectric Composites: Composition–Structure–Nanoscale Mechanism–Function Framework for Dynamic Dielectric Engineering. Advanced Functional Materials, 2025, e21845.(中科院一区,与复旦大学合作发表)
[2] Huan, X., Zang, H., Du, B., et al. Reaction Condition-Driven Structural Evolution during Epoxy Resin Chain Extension and Its Influence on Insulator Material Properties. Journal of Applied Polymer Science, 2025, accepted.
[3] Huan, X., Hu, B., Zang, H., Ji, Z., Gao, C., Zhou, F., ... & Zhao, Y. Building Block Orchestration Enables Efficient and Uniform Curing for Tough and Highly Insulating Epoxy. ACS Applied Polymer Materials, 2025, 7(13): 8766–8775.(封面论文)
[4] Huan, X., Hu, B., Ji, Z., Gao, C., Zhou, F., Yu, J., ... & Zhao, Y. Enhancing Electrical Insulation of Epoxy Composites by Suppressing Charge Injection and Subsequently Electric Field Distortion. Composites Communications, 2025, 56, 102391.
[5] Zhu, J., Li, H., Yi, J., Chen, Z., Ge, L., Liu, C., Geng, H., Chen, X., Li, T., Deng, D., & Huan, X.* Electromagnetic Techniques in Carbon Fibre and Carbon Fibre Composites Manufacturing: A Review. Composites Part B: Engineering, 2025, 112227.(中科院一区,与北京化工大学合作发表)
[6] Wu, Z.*, Zhu, Q., Ai, Z., Bu, Q., Ma, R., Zhang, Z., Xu, C., Huan, X.*, & Zhang, Q. Tailored Interfacial sp2/sp3 Hybridization in Diamond@DLC Heterostructure: Resolving the Microwave Absorption–Dielectric–Thermal Trilemma in Epoxy Composites for Electronic Packaging. ACS Applied Materials & Interfaces, 2025, ASAP.(与西安交通大学合作发表)
[7] Zhao, Y., Zhao, Y., Shen, H., Huan, X.*, Du, B.*, Chen, Q., & Zheng, Y. Construction of Multilevel Molecular Chain Epoxy Crosslinking Network for Synergistic Improvement of Insulation and Mechanical Properties of Materials. IEEE Transactions on Dielectrics and Electrical Insulation, 2025.
[8] Zheng, Y., Gao, C., Zhou, F., Wang, G., Zang, H., Ji, Z., & Huan, X. Catalyst-driven optimization of epoxy curing: enhanced mechanical, thermal, and electrical insulation performance. Materials Letters, 2025, 138694.(与南方电网科学研究院合作发表)
2024
[1] Li, Y., Li, H., Dong, J., Chen, Z., Zhao, J., Huan, X.*, et al. Revisiting the Sequential Evolution of Sizing Agents in CFRP Manufacturing to Guide Cross-Scale Synergistic Optimization of Interphase Gradient and Infiltration. Composites Part B: Engineering, 2024, 111825.(中科院一区,与北京化工大学合作发表)
[2] Du, B., An, Y., Huan, X.*, Yang, L., & Zhao, Y. MWCNTs/C60 “Grape-like” Nanostructures for Enhancing Piezoelectric Performance in PVDF Nanofibers through Constructing Localized Conductive Domains. ACS Applied Electronic Materials, 2024, 7(1): 104–114.
[3] Wu, Z., Ma, R., Ai, Z., Huan, X., Wang, S., Fan, W., & Zhang, Q. In situ interfacial evaluation of aramid/epoxy composites by interfacial stress transfer characteristics. Review of Scientific Instruments, 2024, 95(7). (与西安交通大学合作发表)
2023
[1] Huan, X., Li, H., Song, Y., et al. Charge Dynamics Engineering Sparks Hetero-Interfacial Polarization for an Ultra-Efficient Microwave Absorber with Mechanical Robustness. Small, 2023, 2306104.(封面论文)
[2] Du, B., Zhang, G., Huan, X.*, et al. Electrostatically Self-Assembled Fe₃O₄@SiO₂/MXene 3D Interlayered Structure Improves Ku-band Microwave Absorption Efficiency of Epoxy-Based Nanocomposites. Composites Part A: Applied Science and Manufacturing, 2024, 177: 107956.
[3] Wu, T., Huan, X., Zhang, H., et al. Orientation and Inhomogeneous Distribution of Carbon Nanofibers and Distinctive Internal Structure in Polymer Composites Induced by 3D Printing Enabling Electromagnetic Shielding Regulation. Journal of Colloid and Interface Science, 2023, 638: 392–402.(中科院一区)
[4] Liu, C., Li, H., Huan, X., et al. Confining Fluorescence Detection for Distinguishable Visualization of Multivariate Nanoparticles: Implications for Design and Controllable Preparation of Nanocomposites. ACS Applied Nano Materials, 2023, 6(7): 5233–5241.
2022及以前
[1] Huan, X., Wang, H., Deng, W., et al. Integrating Multi-Heterointerfaces in a 1D@2D@1D Hierarchical Structure via Autocatalytic Pyrolysis for Ultra-Efficient Microwave Absorption Performance. Small, 2022, 18(13): 2105411.(ESI高被引;封面论文)
[2] Wu, T., Huan, X., Jia, X., et al. 3D Printing Nanocomposites with Enhanced Mechanical Property and Excellent Electromagnetic Wave Absorption Capability via ZIF-Derivative Modified Carbon Fibers. Composites Part B: Engineering, 2022, 233: 109658.(中科院一区)
[3] Huan, X., Wu, T., Yan, J., et al. Phosphoric Acid-Derived Efficient Reclamation of Carbon Fibre for Re-Manufacturing High-Performance Epoxy Composites Reinforced by Highly-Aligned Mat with Optimized Layup. Composites Part B: Engineering, 2021, 211: 108656.(中科院一区)
[4] Liu, C., Meng, L., Huan, X., et al. In Situ Characterization of Macroscale 3D Spatial Dispersion of MWCNTs in Matrix and Interfacial Phases of Quartz Fibers/Epoxy Composites via Fluorescence Imaging. Journal of Materials Science, 2021, 56: 16399–16421.
[5] Huan, X., Shi, K., Yan, J., et al. High-Performance Epoxy Composites Prepared Using Recycled Short Carbon Fiber with Enhanced Dispersibility and Interfacial Bonding through Polydopamine Surface Modification. Composites Part B: Engineering, 2020, 193: 107987.(中科院一区)
[6] Fu, P., Huan, X., Luo, J., et al. Magnetically Aligned Fe₃O₄ Nanowires–Reduced Graphene Oxide for Gas Barrier, Microwave Absorption, and EMI Shielding. ACS Applied Nano Materials, 2020, 3(9): 9340–9355.
[7] Shi, K., Luo, J., Huan, X., et al. Ionic Liquid–Graphene Oxide for Strengthening Microwave-Curing Epoxy Composites. ACS Applied Nano Materials, 2020, 3(12): 11955–11969.
教育经历
[1] 2016.9-2022.6
北京化工大学 博士学位 | 研究生(博士)毕业
[2] 2012.9-2016.7
北京化工大学 学士学位 | 本科(学士)
工作经历
[1] 2022.9-至今
合肥工业大学