傅晓建

发布者:何万源发布时间:2018-04-23浏览次数:15259

傅晓建老师

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职称:副教授

办公室:3044am永利集团3044noc九龙湖校区信息大楼1110

办公电话:025-83795579

Emailfuxj@seu.edu.cn

学习经历:

2005/9 – 2009/6,浙江大学,本科;

2009/9 – 2014/7,清华大学,博士。

工作经历:

2014/6 – 2017/5,3044am永利集团3044noc,3044am永利集团3044noc,博士后;

2016/3 – 2017/3,南洋理工大学(新加坡),电气与电子工程学院,博士后研究员;

2017/5 – 至今,3044am永利集团3044noc,3044am永利集团3044noc,上岗副研究员、副教授,硕士生导师、博士生导师;

2018/5 – 2019/5,科技部高技术研究发展中心,工作借调。

教授课程:

太赫兹新材料与前沿技术(研讨课)--本科生

材料电磁光性能:基础与前沿--博士生

研究方向:

1、新型人工电磁材料;

2、面向通信应用的毫米波与太赫兹智能超表面;

3、毫米波人工表面等离激元电路与器件;

4、太赫兹功能材料与新型器件。

招生硕士/博士专业:电磁场与微波技术、电子信息。欢迎有电子信息、物理、材料背景的同学报考。

获奖情况:

2017年度获得首开课(特异电磁材料研究新进展[Seminar])校级优秀;

入选2017年度中国博士后科学基金资助者选介;

入选2022年度3044am永利集团3044noc“小米青年学者”;

获得2025年度南京工学院无线电系7778级校友奖教金。

论文著作:

[1]Qingdong Cai, Xiaojian Fu*, Peng Wang, Yuan Fu,   Yujie Liu, Yu Wang, Qun Yan Zhou, Jingbo Sun, Qinghua Song, and Tie Jun Cui*.   Dual-Functional Programmable Metasurface with Zero Static Power Based on   Liquid Metal. Advanced Materials, 2026, 38: e14705.

[2]Peng Wang, Xiaojian Fu*, Jun Yang, Yujie Liu,   Qun Yan Zhou, Lu Xu, Guozhen Zhang, Jun Yan Dai, Qiang Cheng, and Tie Jun Cui*.   Soft Matter Metasurface for Sub-Terahertz Near-Field Manipulations and   Wireless Communications. Laser & Photonics Reviews, 2026, 20: e02123.

[3]Yuan Fu, Xiaojian Fu*, Lifeng Chen, Peng Wang,   Lihao Huang, Jun Yang, Tie Jun Cui. Pixelated liquid crystal programmable   metasurface enabled multi-functional terahertz near-field wavefront   manipulation. Photonics Research, 2026, 14: 586914.

[4]Qingdong Cai, Xiaojian Fu*, Yuan Fu, and Tie Jun   Cui*. A Quasi-Isolated Dual-Function Reconfigurable Meta-Device Based on   Dual-Modes for Remote Monitoring. Laser & Photonics Reviews, 2026, 20:   e02295.

[5]Yuan Fu, Yuanbo   Li, Xiaojian Fu*, Lu Xu, Yujie   Liu, Qun Yan Zhou, Jun Yang, Chong Han*, Jun Yan Dai, Qiang Cheng, and Tie   Jun Cui*. A Dual-Broadband Liquid-Crystal Programmable Metasurface and Its   Application in Terahertz Wireless Communications. Engineering, 2026, 59:   352-363.

[6]Qingdong Cai, Xiaojian Fu*, Lei Zhang, Sen Zheng,   Peng Wang, Ziyi Zhu, and Tie Jun Cui. Liquid Metal-Based 2-D Reconfigurable   Antenna Assembly With Zero Static Power Consumption. IEEE Transactions on   Antennas and Propagation, 2026, 74: 374-383.

[7]Hang Xu, Xiaojian Fu*, Ziyi Zhu, Peng Wang, Lifeng   Chen, Yuan Fu, and Yujie Liu. Compact Dual-Mode ASK/PSK Broadband Digital   Modulator Based on Millimeter-Wave Spoof Surface Plasmon Polaritons. IEEE   Microwave and Wireless Technology Letters, 2026, 36: 439-442.

[8]Yujie Liu,   Weijun Gao, Xiaojian Fu*, Liang   Jin, Chong Han, Lei Zhang, and Tie Jun Cui*. Meta-encryptor with   multi-dimensional security architecture for wireless communications. Nature   Communications, 2025, 16: 11635.

[9]Peng Wang,   Yujie Liu, Xiaojian Fu*, and Tie   Jun Cui*. Metasurface-Empowered Low-Profile Folded Programmable Platform for   High-Performance Electromagnetic Syntheses. Laser & Photonics Reviews,   2025, 19: e01011.

[10]Yujie Liu, Yu   Wang, Xiaojian Fu*, Jiang Luo,   Ziyi Zhu, Hang Xu, Peng Wang, Yuan Fu, Liu Cao, Yongjun Xu, and Tie Jun Cui*.   Ultra-Wideband Simultaneous Manipulations of Fundamental and Harmonic Waves   Based on Space-Time Coding Metasurface: Basic Principles and mmWave   Applications. Laser & Photonics Reviews, 2025, 19: 2401482.

[11]Xiaojian Fu, Peng Wang, Yujie Liu,   Yuan Fu, Qingdong Cai, Yu Wang, Silei Yang, and Tie Jun Cui*. Fundamentals   and applications of millimeter-wave and terahertz programmable metasurfaces.   Journal of Materiomics, 2025, 11: 100904.

[12]Silei Yang,   Ziyi Zhu, Xiaojian Fu*, Peng Wang,   Yujie Liu, and Jun Wei Wu. Polarization and space multiplexing metasurface   for high-efficiency holography. Optics Express, 2025, 33: 8701-8711.

[13]Peng Wang, Xiaojian Fu*, Jun Yang, Yuan Fu,   Qingdong Cai, Yujie Liu, Silei Yang, Jianshu Shi, Shilie Zheng, and Tie Jun   Cui*. Efficient Manipulation of Near-Field Terahertz Waves: Individually   Addressable Transmissive Meta-Device. Laser & Photonics Reviews, 2024, 18:   2400617.

[14]Qingdong Cai, Xiaojian Fu*, Xuanru Zhang, and Tie Jun   Cui. Liquid Metal-Based Continuously Tunable Surface Plasmon Resonator for Lab-on-Chip   Sensor Applications. IEEE Antennas and Wireless Propagation Letters, 2024, 23:   2506-2510.

[15]Yujie Liu, Yu   Wang, Xiaojian Fu*, Lei Shi, Fei   Yang, Jiang Luo, Qun Yan Zhou, Yuan Fu, Qi Chen, Jun Yan Dai, Lei Zhang,   Qiang Cheng, and Tie Jun Cui*. Toward Sub-Terahertz: Space-Time Coding   Metasurface Transmitter for Wideband Wireless Communications. Advanced   Science, 2023, 10: 2304278.

[16]Yuan   Fu, Xiaojian Fu*, Silei Yang,   Shuang Peng, Peng Wang, Yujie Liu, Jun Yang, Jingbo Wu, and Tie Jun Cui*.   Two-dimensional terahertz beam manipulations based on liquid-crystal-assisted   programmable metasurface. Applied Physics Letters, 2023, 123: 111703.

[17]Qi Chen, Xiaojian Fu*, Jiang Luo, Yuan Fu,   Yujie Liu, Lei Shi, Fei Yang, Hao Chi Zhang, Hui Feng Ma, and Tie Jun Cui*. Ka-band   beam-scanning leaky-wave antenna fed by reconfigurable spoof surface plasmon   polaritons. Optics Express, 2023, 31: 12189-12199.

[18]Xiaojian Fu, Lei Shi, Jun Yang, Yuan   Fu, Chenxi Liu, Jun Wei Wu, Fei Yang, Lei Bao, and Tie Jun Cui. Flexible   terahertz beam manipulations based on liquid-crystal-integrated programmable   metasurfaces. ACS Applied Materials & Interfaces, 2022, 14: 22287-22294.

[19]Xiaojian Fu, Yujie Liu, Qi Chen, Yuan   Fu, and Tie Jun Cui. Applications of terahertz spectroscopy in the detection   and recognition of substances. Frontiers in Physics, 2022, 10: 869537.

[20]Xiaojian Fu, Fei Yang, Chenxi Liu,   Xiaojun Wu, and Tie Jun Cui. Terahertz beam steering technologies: from phased   arrays to field-programmable metasurfaces. Advanced Optical Materials, 2020,   8: 1900628.

[21]傅晓建, 石磊, 崔铁军. 太赫兹超材料及其成像应用研究进展. 材料工程, 2020, 48:   12-22.

[22]Xiaojian Fu and Tie Jun Cui. Recent   progress on metamaterials: from effective medium model to real-time   information processing system. Progress in Quantum Electronics, 2019, 67:   100223.

科研项目:

项目名称

项目类别

项目时间

工作类别

项目金额

太赫兹可编程超表面的近场实时操控机制与多场景智能

波束赋形

国家自然科学基金面上项目

2026.01-2029.12

基础研究

50万元

面向山地城市复杂环境的可重构智能表面辅助通感一

体化理论与方法

国家自然科学基金联合基金重点项目(课题负责人)

2024.01-2027.12

基础研究

78.6万元

太赫兹超表面调控电磁波波前研究

中央高校基本科研业务费

2020.01-2020.12

基础研究

6万元

太赫兹波束扫描天线(所属项目:太赫兹无线通信技术与系统)

国家重点研发计划项目子课题

2019.07-2023.06

基础研究

184万元

太赫兹人工表面等离激元无源器件

国家自然科学基金青年科学基金

2016.01-2018.12

基础研究

24.9万元

多功能可调谐局域表面等离激元器件

中国博士后科学基金特别资助

2016.03-2017.05

基础研究

15万元

基于磁耦合机制的可调太赫兹超材料

中国博士后科学基金面上项目

2014.07-2017.05

基础研究

8万元

专利:

专利号

专利名称

专利类型

申请号: 202110101743.8

一种液晶调控太赫兹数字可编程超表面

国家发明专利

申请号: 202210144468.2

一种1-比特毫米波电控可编程超表面

国家发明专利

申请号: 202211385792.X

一种可重构人工表面等离激元馈电的漏波天线

国家发明专利

申请号: 202310741291.9

一种液晶调控太赫兹二维可编程超表面

国家发明专利

申请号: 202311582036.0

一种1-比特透射式极化复用多功能太赫兹数字编码超表面

国家发明专利

申请号: 202311645582.4

连续可调谐表面等离激元谐振传感器

国家发明专利

申请号: 202410734527.0

一种二比特微流控可编程超表面

国家发明专利

申请号: 202410737425.4

一种双极化独立操控毫米波可编程超表面

国家发明专利

申请号: 202511013932.4

MOS   开关调控的增益

毫米波可编程超表

国家发明专利