姓名： 宋荣国

性别： 男

出生年月：1993年02月

职称/职务：特设教授

学位/学历：博士，省部级人才

硕/博士生导师：硕士生导师

联系方式：rongguo_song@whut.edu.cn

研究方向：新材料微波器件与天线

教育背景与工作经历：

2018.09-2021.11，武汉理工大学，信息与通信工程，工学博士

2015.09-2018.06，武汉理工大学，物理学，理学硕士

2011.09-2015.06，武汉理工大学，电子信息科学与技术，理学学士

2022.08-2024.07，中国人民解放军空军预警学院，博士后

2023.07-2024.07，乾元国家实验室

2024.07-今，武汉理工大学，物理与力学学院

主要科研项目：

1. 乾元国家实验室基金项目：130万元，主持

2. 国家自然科学基金青年科学基金项目：30万元，主持

3. 中国博士后科学基金特别资助项目：18万元，主持

4. 中国博士后科学基金面上项目：8万元，主持

5. 湖北省自然科学基金：10万元，主持

代表性论文：

1. Song R, Mao  B*, Wang Z, Hui Y, Zhang N, Fang R, Zhang J, Wu Y, Ge Q, Kostya S.  Novoselov*, He D*: Comparison of Copper and Graphene Assembled Films in  5G Wireless Communication and THz Electromagnetic-Interference  Shielding. Proceedings of the National Academy of Sciences 120(9): e2209807120, 2023.

2. Song R,  Jiang S, Hu Z, Fan C, Li P, Ge Q, Mao B* and He D*: Ultra-high  Conductive Graphene Assembled Film for Millimeter Wave Electromagnetic  Protection. Science Bulletin 67(11): 1122-1125, 2022.

3. Song R, Wang Z, Zu H, Chen Q, Mao B, Wu Z and He D*: Wideband and low sidelobe graphene antenna array for 5G applications. Science Bulletin 66: 103-106, 2021.

4. Song R, Zhang R, Zu H and He D*: Graphene assembled films for radio frequency and microwave technology. Accounts of Materials Research 5: 896-906, 2024. 

5. Song R,  Si Y, Qian W, Zu H, Zhou B, Du Q, He D*, Wang Y*. Investigation of  MXene Nanosheets based Radio-Frequency Electronics by Skin Depth Effect.  Nano Research, 17(4): 3061-3067, 2024.

6. Dong B^#, Zu H^#, Song R*, Luo Z, Qian W, Zhang J, Du Q*, He D. Graphene-based Integrated Radiation Heat-Dissipation Reconfigurable Polarization Conversion Metasurface. Nano Research, 18: 94907494, 2025.

7. Zhang R^#, Song R^#, Xin Y, Zu H, He D: Ultrawideband and Miniaturized Endfire Antenna With Gain Enhancement Incorporating SSPPs Mode and Vivaldi Mode. IEEE Transaction on Antennas and Propagation. 73(8): 6091-6096, 2025.

8. Li Z^#, Song R^#, Zu H, Zhou Y, Xin Y, Guo J, Zhang R, He D: Scattering Manipulation for Conformal Coding Metasurfaces Based on a Graphene-Assembled Film. IEEE Transaction on Antennas and Propagation. 73(8): 5481-5492, 2025.

9. Zhang J, Wang Y, Song R*, Kou Z, and He D*. Highly Flexible Graphene‐Film‐Based Rectenna for Wireless Energy Harvesting. Energy &Environmental Materials, 7 e12548, 2024. 

10. Zhou Y, Zhou B, Jin S, Luo Z, Qian W, Guo J, Li B, Zu H, Song R* and He D*. Highly Reliable and Ultra-Wideband Metamaterial Absorber Based on Graphene-Assembled Films for Extremes. Carbon 229: 119534, 2024.

11. Ye D, Zu H, Hu Z, Xin Y, Guo J, Song R* and He D*: Flexible and Compact Tri-Band Graphene Antenna for Conformal Wi-Fi/WiMAX/5G Applications. IEEE Transactions on Circuits and Systems II: Express Briefs 71: 1086-1090, 2024.

12. Xin Y, Song R*, Jiang S, Fu H, Qian W, Ye D, Guo J, Zhang Z, Zu H*, He D*. Millimeter-Wave and Short-Range Wireless Communication Antenna Based on High-Conductivity Graphene-Assembled Film. ACS Applied Materials & Interfaces 15(47): 54766-54772, 2023. 

13. Guo J, Si Y, Song R*, Zu H, Xin Y, Ye D, Xu M, Li B*, He D*: High-Conductivity MXene Film-Based Millimeter Wave Antenna for 5G Applications. Crystals 13, 1136, 2023. 

14. Hui Y, Zu H, Song R*, Fu H, Luo K, Tian C, Wu, B; Huang, G; Kou, Z; Cheng, X*; He, D*: Graphene-Assembled Film-Based Reconfigurable Filtering Antenna with Enhanced Corrosion-Resistance. Crystals 13, 747, 2023. 

15. Guan H^#, Song R^# Tong  C, Zhao X, Yang Y*, and He D*. Graphene assembled film based conformal  sensor array for submillimeter crack location and direction detection Applied Physics Express 16: 015512, 2023.

16. Jiang S, Song R*,  Hu Z, Xin Y, Huang G, He D*. Millimeter wave phased array antennabased  on highly conductive graphene-assembled film for 5G applications. Carbon 196: 493-498, 2022.

17. Zeng W, Xia F, Tian W, Cao F, Chen J, Wu J, Song R* and Mu S*: Single-crystal high-nickel layered cathode for lithium-ion batteries. Current Opinion in Electrochemistry 31: 100831, 2022. 

18. Song R, Chen X, Jiang S, Hu Z, Liu T, Calatayud D, Mao B and He D: A Graphene-Assembled Film Based MIMO Antenna Array with High Isolation for 5G Wireless Communication. Applied Sciences-Basel 11: 2382, 2021.

19. Song R,  Zhao X, Wang Z, Fu H, Han K, Qian W, Wang S, Shen J, Mao B and He D:  Sandwiched Graphene Clad Laminate: A Binder‐Free Flexible Printed  Circuit Board for 5G Antenna Application. Advanced Engineering Materials 22: 2000451, 2020. 

20. Zhang J^#, Song R^#,  Zhao X, Fang R, Zhang B, Qian W, Zhang J, Liu C and He D: Flexible  Graphene-Assembled Film-Based Antenna for Wireless Wearable Sensor with  Miniaturized Size and High Sensitivity. ACS Omega 5: 12937-12943, 2020. 

21. Fan C^#, Wu B, Song R^#, Zhao Y, Zhang Y and He D: Electromagnetic shielding and multi-beam radiation with high conductivity multilayer graphene film. Carbon 155: 506-513, 2019.

22. Song R, Huang G, Liu C, Zhang N, Zhang J, Liu C, Wu ZP and He D: High-conductive graphene film based antenna array for 5G mobile communications. International Journal of RF and Microwave Computer-Aided Engineering 29: e21692, 2019.

23. Song R,  Wang Q, Mao B, Wang Z, Tang D, Zhang B, Zhang J, Liu C, He D*, Wu Z*  and Mu S: Flexible graphite films with high conductivity for  radio-frequency antennas. Carbon 130: 164-169, 2018. 

授权国家发明专利:

1. 一种射频微波器件及微量氮掺杂石墨烯薄膜，ZL201710456298.0。

2. 一种超高电导率大尺寸石墨烯薄膜及射频微波器件，ZL201710887970.1。

3. 隔离度高的MIMO天线阵列，ZL202110028579.2。

4. 一种石墨烯柔性金属裂纹检测传感器和系统，ZL202210796674.1。

5. 一种谐振结构、金属无损检测传感器、检测系统及方法，ZL202210139257.X。