陈平，男，Betway必威西汉姆联电子工程系副教授，博士生导师。2007年6月毕业于bw必威西汉姆联官网电子科学与工程系无线电物理专业，获该专业理学博士学位。2007年7月留校从事教学科研工作，2013年1月至2014年2月美国特拉华大学访问学者。主要从事人工电磁材料理论与应用、电磁场与微波技术方面的研究。近年来先后主持了部委领域基金、国家自然科学基金、预研基金、博士点基金等各类科研项目20余项，作为主要研究人员参加各类研究项目10余项。已在国内外重要期刊和会议上发表学术论文90多篇，授权发明专利6项。

(1)人工电磁材料及其应用;

(2)材料电磁物性表征与应用;

(3)新型微波器件与天线。

本科生：
 《普通物理：电磁学》
 《射频与微波电路》

研究生：

 《射频与微波电路》

 《微波测量技术》

 《人工电磁材料》

1.Y. Xu, R. Tan, X. Jiang, L. Bo, Y. Wang, H. Xu,P. Chen* and K. Xi* Hierarchical Composite Polyimide Aerogels with Hyperbranched Siloxane for High Electromagnetic Wave Absorption, Adv. Funct. Mater., 35(2025), 2421389.

2.G. Li, R. Tan, B. Gao, X. Liu, C. Zhang, P. Chen*, X. Wang* PB@COF-derived core–shell Fe/Fe3O4/C composites with excellent electromagnetic wave absorption performance for the entire Ku band, Chem. Eng. J., 504 (2025) 159010.

3.R. Tan, L. Jin, X. Wei, B. Wei, J. Zhou* and P. Chen * Magnetic resonance behavior modulation of Ba3Co1.6−xZnxCu0.4Fe24O41 hexaferrites for microwave absorption and surface wave suppression, Journal of Materials Science & Technology, 214(2025), 292-301.

4.Z. Shen, R. Tan, Z. Chen, P. Chen* and X. Wang* Hollow Engineering of Fe3O4@C Composites via a Self-Templated Etching Strategy for Enhanced Electromagnetic Wave Absorption, ACS Appl. Electron. Mater., 7:3(2025), 1182-1191.

5.A. Fu, C. Wang, S. Chen, K. Yang, B. Ren, and P. Chen * Low-profile, wideband RCS-reduction antenna array based on a metal–ink hybrid metasurface, Opt. Express, 32(2024), 43619-43631.

6.S. Liu, F. Zhu, J. Huang; H. Zhao, M. Han, K. Fan* and P. Chen* Fast inverse design of microwave and infrared Bi-stealth metamaterials based on equivalent circuit model, J. Appl. Phys. 136(2024), 113106.

7.G. Li, R. Tan, B. Gao, Y. Zhou, C. Zhang, P. Chen*, and X. Wang* Modulating morphologies and electromagnetic wave absorption performances of 3d-4f PBA derivatives with transition metal ions, Carbon, 228(2024), 119315.

8.S. Liu, J. Z. Ye, R. Tan, M. Han, H. Zhuang*, and P. Chen* Genetic algorithm-enabled on-demand co-design of optically transparent metamaterial for multispectral stealth applications, Opt. Express, 32(2024), 30969-30981.

9.R. Tan, Y. Liu, W. Li, J. Zhou*, P. Chen*, A. Zavabeti, H. Zeng*, and Z. Yao*Multi-Scale Dispersion Engineering on Biomass-Derived Materials for Ultra-Wideband and Wide-Angle Microwave Absorption, Small Methods 8(2024), 2301772.

10.G. Li, R. Tan, B. Gao, Y. Zhou, C. Zhang, P. Chen*, and X. Wang* Hierarchical composite CoFe-K-GC@MnO@Mxene for excellent electromagnetic wave absorption Journal of Alloys and Compounds 979 (2024) 173580.

11.X. Wei, J. Wang, F. Zhou, R. Tan, J. Liu*, and P. Chen*, A broadband low-profile microwave absorber based on ferromagnetic material doped hybrid stereo metamaterial, J. Phys. D: Appl. Phys. 57 (2024) 015101.

12.S. Liu, J. Wang, X. Zhang, M. Han, R. Tan, X. Wei, and P. Chen*, Low infrared emissivity and broadband wide-angle microwave absorption integrated bi-functional camouflage metamaterial with a hexagonal patch based metasurface superstrate, Opt. Express 31(2023), 40630-40645.

13.G. Li, R. Tan, X. Lu, X. Zhang, C. Zhang, B. Gao, Y. Zhou, K. Chen, P. Chen *, X. Wang, * FeNi/C/TiO2 composites derived from [Fe(pz)Ni(CN)4] Hofmann framework and MXene for efficient electromagnetic absorption Ceramics International 49 (2023) 36378–36390.

14.R. Tan, F. Zhou, Y. Liu, B. Zhang, Y. Yang, J. Zhou, P. Chen^* and T. Jiang^*, 3D printed propeller-like metamaterial for wide-angle and broadband microwave absorption, Journal of Materials Science & Technology, 144(2023), 45-53.

15.Y. Fu, J. Ji, Y. Wang, F. Zhou, C. Wang and P. Chen ^* Broadband Radar Cross Section Reduction Binary Metasurface With a High-Efficiency Intraband Transmission Window, IEEE Antennas and Wireless Propagation Letters, 21:5(2022), 878-882.

16.R. Tan, F. Zhou, P. Chen ^*, B. Zhang ^*, and J. Zhou^* PANIFeCo@C composite microspheres with broadband microwave absorption performance, Composites Science and Technology 218 (2022) 109143.

17.D. Fan, R. Tan, B. Wei, P. Chen^*, and J. Zhou^* Broadband microwave absorption performance and theoretical dielectric properties model of hollow porous carbon spheres/expanded polypropylene composite foams, Polymer 234, (2021), 124262.

18.F. Zhou, R. Tan, W. Fang, Y. Fu, J. Ji, J. Zhou, and P. Chen^*, An ultra-broadband microwave absorber based on hybrid structure of stereo metamaterial and planar metasurface for the S, C, X and Ku bands, Results in Physics 30, (2021), 104811.

19.F. Zhou, Y. Fu, R. Tan, J. Zhou, and P. Chen^*, Broadband and wide-angle metamaterial absorber based on the hybrid of spoof surface plasmonic polariton structure and resistive met surface, Optics Express 29:21 (2021), 34735.

20.W. Fang, F. Zhou, Y. Wang, and P. Chen^*, Broadband, wide-angle, polarization-independent and lightweight low-scattering coding metamaterial based on stereo meta-atoms, Results in Physics 20, (2021):103687.

21.Y. Wang, K. Chen, F. Zhou, J. Tian, Y. Fu, and P. Chen^*, Resonance phase and geometric phase integrated diffusion metasurface for broadband scattering control, Journal of Physics D: Applied Physics 54, (2021):165101.

22.H. Zhuang, X. Wang, J. Wang, M. Guo, D. Tang, B. Zhang, X. Chen, P. Chen^*, and Y. Yang^*, Broadband microwave metamaterial absorber based on magnetic periodic elements, Journal of Physics D: Applied Physics 53, (2020), 255502.

23.W. Fang, X. Xie, S. Sun, Y. Wang, D. Fan, X. Liu, and P. Chen^*, A broadband radar cross section reduction metasurface based on integrated polarization conversion and scattering cancelation, International Journal of RF and Microwave Computer-Aided Engineering 30, (2020), e22069.