孟国栋

               西安交通大学教授，博士生导师

          麻省理工学院博士后，牛津大学访问学者

      《电气工程学报》编委，中国电工技术学会电工测试专委会委员，中国电工技术学会青年工作委员会委员
      主要研究方向：电气绝缘理论与应用、先进传感与电力设备状态检测技术。

地址：陕西省西安市咸宁西路28号

电子邮箱：gdmengxjtu@xjtu.edu.cn

• 教育经历

2007.9-2014.3           西安交通大学电气学院            博士

2003.9-2007.6           西安交通大学电气学院            本科

• 工作经历

2025.1-至今               西安交通大学电气学院           教授

2019.1-2024.12         西安交通大学电气学院            副教授

2017.12-2018.12        牛津大学材料系                   访问学者

2016.6-2019.1           西安交通大学电气学院            讲师

2015.4-2016.3           麻省理工学院核工系              博士后

2014.4-2015.3           西安交通大学材料学院            博士后

• 研究方向

电气绝缘理论与应用

先进传感与电力设备状态检测技术

• 招生信息

1.每年可招收全日制硕士研究生4 名，博士研究生2名。

2.每年可招收本科生毕业设计3名

欢迎电气工程、物理、化学、材料等相关专业的学生咨询报考！

• 学术任职

《电气工程学报》编委会，青年委员

中国电工技术学会电工测试专委会，委员

中国电工技术学会青年工作委员会，委员

• 代表论著

1. Yimeng Li, Linghan Xia, Nan Li, Shilong Tang, Yunsong Ge, Jianyu Wang, Bing Xiao, Yonghong Cheng, Lay Kee Ang*, Guodong Meng*. Uncovering a Widely Applicable Empirical Formula for Field Emission Characteristics of Metallic Nanotips in Nanogaps, Nature Communications, 16 (1):5583, 2025.

   交大主页新闻：【“三基”主力军】西安交大科研团队在微纳尺度真空绝缘与场发射理论研究取得重要进展

   https://news.xjtu.edu.cn/info/1219/223851.htm

2. Guodong Meng*, Yimeng Li, Roni Aleksi Koitermaa, Veronika Zadin, Yonghong Cheng, Andreas Kyritsakis*. In Situ Observation of Field-Induced Nanoprotrusion Growth on a Carbon-Coated Tungsten Nanotip. Physical Review Letters 132 (17):176201, 2024.        

   交大主页新闻：【科技自立自强】西安交大科研团队在真空绝缘与击穿领域取得重要进展

   https://news.xjtu.edu.cn/info/1004/208984.htm

3. Junyi She, Xin Liu, Haoliang Liu, Hao Yu, Jianyu Wang, Zhiheng Shen, Bing Xiao, Yonghong Cheng, Zongyou Yin*, Guodong Meng*. Nano Letters, 25(30):11578–11585, 2025.

   电气学院主页新闻：我院孟国栋教授科研团队在高性能光电传感器件领域取得重要进展

   https://ee.xjtu.edu.cn/info/1380/14251.htm

4. Linghan Xia, Yimeng Li, Jianyu Wang, Chuhao Huang, Yonghong Cheng, Guodong Meng*. Green Pathway for Upscaling CO2 and H2O Conversion via Synergizing Nonthermal Plasma with Biochar, ACS Sustainable Chemistry & Engineering, 13(6): 2260–2266, 2025. (Supplementary Cover)

   电气学院主页新闻：我院孟国栋教授团队在等离子体能源转化领域取得重要进展

   https://ee.xjtu.edu.cn/info/1380/13781.htm

5.  Junyi She, Hanlin Cen, Zhiheng Shen, Jianyu Wang, Xin Liu, Jun Xi, Yonghong Cheng and Guodong Meng*. A ferroelectrically modulated ultrasensitive two-dimensional perovskite phototransistor with zero-gate-bias, Nanoscale, 2025, 17, 6481-6487. (Front Cover)

   电气学院主页新闻：我院孟国栋教授团队在高性能光电传感器件领域取得重要进展

   https://ee.xjtu.edu.cn/info/1380/13671.htm

6. Yimeng Li, Lay Kee Ang, Bing Xiao, Flyura Djurabekova, Yonghong Cheng, Guodong Meng*. Review of Electron Emission and Electrical Breakdown in Nanogaps. Physics of Plasma 31 (4), 040502, 2024. (Invited/Feature Article)

   入选2024 Physics of Plasmas Early Career Collection：

   https://pubs.aip.org/pop/collection/603885/2024-Early-Career-Collection

   AIP Scilight专题报道：

   https://pubs.aip.org/aip/sci/article/2024/17/171107/3284857/Electrical-breakdown-characteristics-of-nanogaps

7. Yimeng Li, Zezhou Chang, Linghan Xia, Hongyan Guo, Yonghong Cheng, and Guodong Meng*. Microplasma characteristics of direct-current atmospheric pressure glow discharge in dependence of gap distance and discharge current, Journal of Physics D: Applied Physics, 57, 125202, 2024.
8. Linghan Xia, Mengchen Wu, Yimeng Li, Hongyan Guo, Yonghong Cheng, Guodong Meng*. Enhancing CO2 Conversion via Atmospheric Pressure Glow Discharge Plasma Jet Coupled with Catalysts, Energy & Fuels 38, 565-575, 2024.
9. 郑钦仁，詹涪至，折俊艺，王建宇，石若立，孟国栋*．石墨烯的形貌特征对其场发射性能的影响研究．物理学报1-20，2024.
10. 李伊濛,李南,夏凌寒,刘佳薇,张鹏,肖冰,成永红,孟国栋*.真空纳米间隙的脉冲击穿特性.高电压技术,51(01),450-458. 2024.
11. 夏凌寒,常泽洲,李伊濛,石若立,成永红,孟国栋*.开放环境中大气压氩气微等离子体射流特性.高电压技术,50(12),5638-5647, 2024.
12. 孟国栋*,李雨珮,唐佳,顾颐,金阳,陈欣,成永红. 锂离子电池储能电站的热失控状态检测与安全防控技术研究进展.高电压技术,50(07),3105-3127,2024. (Invited paper)
13. Guodong Meng*, Fuzhi Zhan, Junyi She, Jinan Xie, Qinren Zheng, Yonghong Cheng, and Zongyou Yin. Tuneable effects of pyrrolic N and pyridinic N on the enhanced field emission properties of nitrogen-doped graphene. Nanoscale 15, 39: 15994-16001, 2023.
14. Guodong Meng*, Linghan Xia, Yonghong Cheng, Zongyou Yin*, AC-driven atmospheric pressure glow discharge co-improves conversion and energy efficiency of CO2 splitting, Journal of CO2 Utilization, 70:102447,2023.
15. 常泽洲，孟国栋*，应琪，成永红. 阴极曲率半径对微米尺度气隙击穿的影响规律研究，电工技术学报. 38 (4): 1032-1041. 2023
16. 唐佳，于子轩，李雨珮，谢小军，成永红，孟国栋*，磷酸铁锂储能电池过充热失控的多参量特性分析及热失控抑制技术研究，高电压技术，2023.
17. Guodong Meng*, Junyi She, Changling Wang, Wenke Wang, Cheng Pan, and Yonghong Cheng. Sandwich-structured h-BN/PVDF/h-BN film with high dielectric strength and energy storage density. Frontiers in Chemistry 10: 910305. 2022.
18. Xie Jinan, Guodong Meng*, Baiyi Chen, Zhe Li, Zongyou Yin*, and Yonghong Cheng*. Vapor–Liquid–Solid Growth of Morphology-Tailorable WS2 toward P-Type Monolayer Field-Effect Transistors. ACS Applied Materials & Interfaces 14, 40: 45716-45724,2022.
19. 孟国栋*, 折俊艺, 高新宇,成永红. 微米尺度气体击穿的数值模拟研究进展，电工技术学报，2022,37(15):3857-3875.2022.
20. 于子轩, 孟国栋*, 谢小军, 赵勇, 成永红. 磷酸铁锂储能电池过充热失控仿真研究. 电气工程学报, 17(3): 30-39. 2022.
21. Zhengdong Wang*, Guodong Meng*, Liangliang Wang, Liliang Tian, Siyu Chen, Guanglei Wu, Bo Kong, and Yonghong Cheng*. Simultaneously enhanced dielectric properties and through-plane thermal conductivity of epoxy composites with alumina and boron nitride nanosheets. Scientific reports 11 (1): 2495,2021. (ESI High cited paper)
22. Guodong Meng*, Yimeng Li, Zhengdong Wang, Cheng Pan, Wenwu Gao, and Yonghong Cheng. Preparation and characterization of narrow size distribution PMSQ microspheres for high-frequency electronic packaging. Materials 14(15): 4233, 2021.
23. 黄彦钦，余浩，尹钧毅，孟国栋*，成永红.电力物联网数据传输方案:现状与基于5G技术的展望.电工技术学报, 36(17):13, 2021.
24. Xinyu Gao, Andreas Kyritsakis, Mihkel Veske, Wenjie Sun, Bing Xiao*, Guodong Meng, Yonghong Cheng, Flyura Djurabekova*. Molecular dynamics simulations of thermal evaporation and critical electric field of copper nanotips. Journal of Physics D: Applied Physics 53, 365202, 2020.
25. Allen L Garner*, Guodong Meng, Yangyang Fu, Amanda M Loveless, Russell S Brayfield, Adam M Darr. Transitions between electron emission and gas breakdown mechanisms across length and pressure scales, Journal of Applied Physics 128 (21), 210903, 2020. (Invited paper)
26. Siyu Chen, Guodong Meng*, Bo Kong, Bing Xiao*, Zhengdong Wang, Ziang Jing, Yushuan Gao, Guanglei Wu*, Hong Wang, and Yonghong Cheng*. Asymmetric alicyclic amine-polyether amine molecular chain structure for improved energy storage density of high-temperature crosslinked polymer capacitor. Chemical Engineering Journal 387: 123662, 2020. (ESI High cited paper)
27. Chengye Dong, Guodong Meng*, Sandra Elizabeth Saji, Xinyu Gao, Pengcheng Zhang, Di Wu, Yi Pan, Zongyou Yin*, Yonghong Cheng*. Simulation-guided nanofabrication of high-quality practical tungsten probes, RSC Advances, 10(41):24280-24287, 2020.
28. 余浩,黄彦钦,尹钧毅,孟国栋*,成永红. 基于介电响应特性的油浸式电力变压器绝缘状态评估研究进展. 电气工程学报, 15(4): 1-17, 2020. (2022 Excellent paper).
29. Dujiao Zhang, Feihong Wu, Qi Ying, Xinyu Gao, Nan Li, Kejing Wang, Zongyou Yin*, Yonghong Cheng*, and Guodong Meng*. Thickness-tunable growth of ultra-large, continuous and high-dielectric h-BN thin films." Journal of Materials Chemistry C 7(7): 1871-1879, 2019. (Front Cover)
30. Guodong Meng*, Qi Ying, Amanda M Loveless, Feihong Wu, Kejing Wang, Yangyang Fu, Allen L Garner, Yonghong Cheng, Spatio-temporal dynamics of pulsed gas breakdown in microgaps, Physics of Plasmas 26, 014506, 2019.
31. Guodong Meng*, Chengye Dong, Xinyu Gao, Dujiao Zhang, Kejing Wang, Pengcheng Zhang, Yonghong Cheng. Two-dimensional mapping of the electric field distribution inside vacuum microgaps observed in a scanning electron microscope, Micron 116, 93-99, 2019.
32. Meng G, Gao X, Loveless A M, et al. Demonstration of field emission driven microscale gas breakdown for pulsed voltages using in-situ optical imaging. Physics of Plasmas, 25(8): 082116, 2018. (Featured Paper, Editor’s pick)
33. Meng G, Cheng Y, Gao X, et al. In-situ optical observation of dynamic breakdown process across microgaps at atmospheric pressure. IEEE Transactions on Dielectrics and Electrical Insulation, 25(4): 1502-1507, 2018.
34. Meng G, Cheng Y, Wu K, et al. Electrical characteristics of nanometer gaps in vacuum under direct voltage. IEEE Transactions on Dielectrics and Electrical Insulation, 21(4): 1950-1956, 2014.
35. Guodong M, Yonghong C, Chengye D, et al. Experimental study on electrical breakdown for devices with micrometer gaps. Plasma Science and Technology, 16(12): 1083, 2014

• 学术报告

1. 基于二维材料的光学传感器及在电力设备放电检测中的应用展望, 2025年第一届全国高压绝缘材料与技术专题研讨会，Invited talk
2. 基于超声技术的锂离子电池状态估计与热失控研究，2025年第十二届电工技术前沿问题学术论坛，Invited talk
3.     Effect of Cathode Radius on the Pre-breakdown Characteristics in Vacuum Nanogaps, 2023 International Symposium on Discharges and Electrical Insulation in Vacuum, Paul. A. Chatterton Young Investigator Award(博士生李伊濛).
4. Investigation on CO2 conversion catalyzed by atmospheric pressure glow discharge plasma, 2023 5th International Symposium on Plasma and Energy Conversion, Excellent paper（博士生夏凌寒）
5. Characteristics of atmospheric pressure microplasma jet below 100μm, 2022 6th Asia Pacific Conference on Plasma Physics, Invited talk.
6. Insight into the fundamental characteristics of micro-APGD below 100 μm, 2022 15th Asia Pacific Physics Conference, Invited talk.
7. 智能传感与智能终端, 2019年全国电工测试技术学术交流会暨电工测试专委会报告, Invited talk.
8. 微米尺度电气击穿数值模拟的研究进展, 2019中国电机工程学会高电压专业委员会年学术年会, Excellent paper