李茁，南京航空航天大学电子信息工程学院副院长，教授/博导，中国电子学会高级会员，中国电子学会天线分会委员，中国电子学会电磁兼容分会委员，江苏省通信工程高级专业技术资格评审评委会委员，江苏省中以产业园青年博士创新计划成员，IEEE会员，Journal of Physics D: Applied Physics咨询委员会委员，Electronics编辑， IMT-2030（6G）推进组智能全息无线电任务组成员。2009年4月毕业于东南大学毫米波国家重点实验室电磁场与微波技术专业，获工学博士学位。2013.05~2015.05在江苏吴通集团做企业博士后研究，2015.12~2016.12在美国亚利桑那州立大学访学。现从事电磁兼容性设计，新型电磁超材料、表面等离激元、雷达目标特性，微波传感器设计等方向的研究。在Advanced Science, Nano Letters，Laser & Photonics Reviews, Advanced Optical Materials，Physical Review Applied, IEEE T-MTTs, IEEE T-AP, IEEE T-IE, IEEE T-EMC, IEEE AP Magazine，电子信息学报，电波科学学报等国内外期刊上发表SCI论文160余篇，ESI论文3篇，被引用2400余次。授权国家发明专利20余项，美国发明专利1项。主持国家自然科学基金2项，江苏省自然科学基金面上项目1项，空装预研基金1项、航空科学基金1项、毫米波国家重点实验室项目3项，横向课题20余项。2013年入选江苏省博士集聚计划，2017年入选江苏省青年科技人才托举工程，2018年入选江苏省六大人才高峰项目工程，2022年入选江苏省青蓝工程中青年学术带头人。2019年获中国电子学会自然科学二等奖，2022年获江苏省科学技术一等奖。

个人主页：https://zhuoliccem.wixsite.com/main

Google  Scholar个人主页：https://scholar.google.com/citations?hl=zh-CN&user=oFbqtP0AAAAJ

Researchgate个人主页：https://www.researchgate.net/profile/Zhuo_Li18

个人邮箱：lizhuo@nuaa.edu.cn or  zhuoliccem@gmail.com

入选人才工程：

1. 江苏省青蓝工程中青年学术带头人，2022年

2. 南京航空航天大学长空学者“长空英才”，2019年

3. 江苏省“六大人才高峰”高层次人才，2018年

4. 江苏省青年科技人才托举工程，2017年

5. 江苏省博士集聚人才计划，2013年

研究方向：

学科研究方向一：电磁场与微波技术

主要从事Metamaterial, 人工表面等离激元，复杂环境中的电磁兼容，无人机物流组网与通信，基于宇称-时间对称的高性能传感和计算电磁学及软件工程方面的研究工作.

主要研究方向有：

1. Metamaterials and plasmonic devices;

2. EMC Issues of Cable/Cable bundles in complex environment;

3. Parity-Time Symmetry induced High Performance Sensor;

4. Computational Electromagnetics and Engineering

学科研究方向二：物理电子学

物理电子学

学科研究方向三：探测与成像

Nonreciprocity by spatiotemporally modulated devices and its applications in radio communications and thermaldynamics

发表学术论文,出版专著情况：

Books and Chapters

[1] H. Y. Sun, C. Q. Gu, Z. Li, F. Martin, Metamaterials and Metasurfaces, Chapter title: Coding metasurfaces and applications.

[2] Z. Li, L. L. Liu, C. Q. Gu and Y. Luo, "Designer surface plasmon polaritons: Fundamentals and Applications"

 

Selected Journal Publications （*：Corresponding Author)

2024

[1] T. J. Cui et al "Roadmap on Electromagnetic Metamaterials and Metasurfaces", JPhys Photonics, 2024. 

[2] Huachen Xue, Liangliang Liu, Hui Cong, Zhepeng Fu, Zhengtao Zhu, Dan Shen, Zhuo Li*, "Low-profile reconfigurable saline water-based ultrawideband metamaterial absorber", Journal of Physics D: Applied Physics, 57 145102, 2024.

[3] Jingming Chen, Qinnan Xie, Jingjing Zhang*, Zhuo Li, Tie Jun Cui* and Yu Luo*, "Coherent-resonance enhancement of sensing at the exceptional points", Advanced Optical Materials, 2024, 2302268.

[4] Z. W. Dong, X. L. Chen, F. Gao, C. Q. Gu, Z. Li, W. Yang, and W. B. Lu, "Efficient Iterative Solution of Combined Source Integral Equation Using Characteristic Basis Function Method with Initial Guess", IEEE Journal on Multiscale and Multiphysics Computational Techniques, doi: 10.1109/JMMCT.2024.3382725.

[5] Youxiu Yu, Dongliang Gao, Liangliang Liu, Zhuo Li, Qianru Yang, Haotian Wu, Linyang Zou, Xiao Lin, Jiang Xiong, Songyan Hou, Lei Gao, and Hao Hu, "Generalized Coherent Wave Control at Dynamic Interfaces", under review.

[6] Liu, Yun; Zhang, Xiaojie; Li, Zhuo, "Iterative Synthesis Method for High-Directivity Symmetrical Stepped-Impedance Microstrip ParallelLine Coupler" IET Microwaves, Antennas & Propagation, under review.

[7] Yaoran Zhang, Hao Hu, F. J. García-Vidal, Jingjing Zhang, Liangliang Liu, Yu Luo, and Zhuo Li*, "Reconfigurable Exceptional Point-based Sensing with 0.001λ Sensitivity Using Spoof Localized Surface Plasmons".

2023

[1]Youxiu Yu, Hao Hu, Linyang Zou, Qianru Yang, Xiao Lin, Zhuo Li, Lei Gao and Dongliang Gao, "Antireflection spatiotemporal metamaterials", Laser & Photonics Reviews, 2023, 2300130. （封面论文）

[2] Yuying Jiang, Liangliang Liu, Shuying Li, Chunzi Tang, Zhengzhi Luo, Zhengtao Zhu, Yuxiang Cao, Changqing Gu, Zhuo Li*, "Highly Efficient Decoupled Triple-channel OAM Generation with a Single-layer Shared Aperture Reflective Metasurface", Advanced Optical Materials, 11, 2202071, 2023.

[3] Xinhua Li, Liangliang Liu, Yaoran Zhang, Yue Feng, Guodong Han, Helin Yang, Hao Hu, Yu Luo, and Zhuo Li*, "Hybridization of Localized Spoof Plasmonic Skyrmions and its Application in Micro-displacement Sensing", Advanced Optical Materials, 2023, 2302744.

[4] Minghui Pang, Qiuming Zhu, Cheng-Xiang Wang, Zhipeng Lin, Junyu Liu, Chongyu Lv, Zhuo Li, "Geometry-Based Stochastic Probability Models for the LoS and NLoS Paths of A2G Channels under Urban Scenarios" IEEE Internet of Things Journal. Vol. 10, No. 3, pp. 2360-2372, 2023.

[5]Xinlei Chen, Liyang Zhang, Changqing Gu, Zhuo Li*, "Wideband Sherman-Morrison-Woodbury Formula-Based Algorithm for Electromagnetic Scattering Problems", IEEE Transactions on Antennas and Propagation, vol. 71, no. 6, pp. 5487-5492, June 2023.

[6] Liangliang Liu, Jinrui Shen and Zhuo Li*, "Tuning Magneto-Electric Coherent Resonance with a Deep-Subwavelength Localized Spoof Surface Plasmonic Structure", Optics Letters, 48(4), 855-858, 2023.

[7]Fan Gao, Xinlei Chen, Guiyue Yu, Ziwei Li, Changqing Gu, Zhuo Li,"Multibranch Curvilinear Rao-Wilton-Glisson Basis Functions for Electromagnetic Scattering From Perfet Electric Conducting Targets", IEEE Antennas and Wireless Propagation Letters, vol. 22, no. 7, pp. 1522-1526, July 2023.

[8] Shuying Li, Liangliang Liu, Yuying Jiang, Huijuan Dai, Chunzi Tang, Guodong Han, Changqing Gu, Zhuo Li*, "High-Performance Low-Profile Green Electromagnetic Interference Shielding Material for 5G mm-wave Using Characteristic Mode Theory", Journal of Physics D: Applied Physics, Published.

[9]李姝颖，姜玉莹，戴会娟，刘亮亮，顾长青，李茁*，"面向5G毫米波的绿色多性能电磁屏蔽材料", 复合材料学报，Vol. 40, No. 5, pp.2688-2698, 2023.

[10] Z. X. Zhou, L. L. Liu, X. H. Li, J. R. Shen, G. D. Han, and Z. Li*, "A Compact Dual-passband Filter based on Quarter Wavelength ELSPs Resonators", ACES Journal, vol. 37, no. 10, pp. 1031–1038, Mar. 2023.

[11]庞明慧;台鑫;吕崇玉;朱秋明;华博宇;李茁,"面向5G无人机通信场景的传播路径概率预测模型", 电波科学学报, Vol.38, No.1, pp.54-62, 2023.

[12] Zhiwen Dong, Xinlei Chen, Fan Gao, Changqing Gu, Zhuo Li, Yang Wu, Weibing Lu,"Efficient Iterative Solution of Combined Source Integral Equation Using Characteristic Basis Function Method with Initial Guess", IEEE Journal on Multiscale and Multiphysics Computational Techniques, Accepted.

2022

[1] L. Y. Liu, Y. Liu, X. H. Jin, Z. Li, Y. B. Tian, "A Broad Dual-band Bandpass Filter Design Based on Double-layered Spoof Surface Plasmon Polaritons", Electronics, 2022, 11(5), 697.

[2] L. L. Liu* and Z. Li*, "Spoof Surface Plasmons Arising from Corrugated Metal Surface to Structural Dispersion Waveguide", Progress in Electromagnetics Research, Vol. 173, 93-127, 2022. 

[3] X. H. Li, L. L. Liu, Z. X. Zhou, J. R. Shen, Y. R. Zhang, G. D. Han and Z. Li*, "Highly Sensitive and Topologically Robust Multimode Sensing on Spoof Plasmonic Skyrmions", Advanced Optical Materials, 2200331, 2022. (SCI, IF=10.05，中科院1区Top期刊)

[4] Shuying Li, Liangliang Liu,* Yuying Jiang, Chunzi Tang, Changqing Gu* and Zhuo Li*,"Ultrathin optically transparent electromagnetic shielding window with broadband microwave absorption and ultrahigh optical transmittance", International Journal of RF and Microwave Computer-Aided Engineering, 32(11): e23338,2022.

[5] 李姝颖，姜玉莹，刘亮亮，顾长青，李茁，X波段低RCS光学透明电磁屏蔽材料设计，电磁窗技术，pp.19-23, No. 1, 2022.

[6] Minghui Pang, Qiuming Zhu, Zhipeng Lin, Fei Bai, Yue Tian, Zhuo Li, Xiaomin CHEN,"ML-based altitude-dependent empirical LoS probability model for air-to-ground communications", Frontiers of Information Technology & Electronic Engineering,  23(9):1378-1389, 2022.

[7] Shuying Li, Yuying Jiang, Liyan Zhu, Huijuan Dai, Chunzi Tang, Liangliang Liu, Changqing Gu, Zhuo Li*, "Multifunctional Green Electromagnetic Interference Shielding Material for Sub-6GHz Band", ACS Applied Electronic Materials, 4, 11, 5632–5640, 2022. 

 

2021

[1] Y. R. Yu, L. L. Liu, Q. Jiang, Y. F. Zhao, Y. R. Zhang, Y. Luo, C. Q. Gu, Z. Li*, "Ultra-compact Effective Localized Surface Plasmonic Bandpass Filter for 5G Applications", IEEE Transactions on Microwave Theory and Techniques, Vol.69, No.4, pp. 2220-2228, April, 2021.

[2] Q. Jiang, Y. R. Yu, Y. F. Zhao, Y. R. Zhang, Y. Luo, L. L. Liu and Z. Li*, "Ultra-compact ELSPs Sensor for Permittivity Measurement of Aqueous Ethanol Solution with High Sensitivity",  IEEE Transactions on Instrumentation and Measurement, 6008709, Vol. 70, pp.1-9, June, 2021.

[3] Y. F. Zhao, S. Y. Li, Y. Y. Jiang, L. L. Liu and Z. Li*, “An ultra-wideband and wide-angle optically transparent flexible microwave metamaterial absorber" , Journal of Physics D: Applied Physics, 54 275101, 2021. 

[4] S. Y. Li, C. Q. Gu, Y. Y. Jiang, H. B. Hu, H. J. Dai, Q. Jiang, L. L. Liu and Z. Li*, "Ultrathin optically transparent metamaterial absorber for broadband  microwave invisibility of solar panel", Journal of Physics D: Applied Physics, 55 045101，2021.（IOP公众号《编辑优选》）

[5] Minghui Pang, Qiuming Zhu, Fei Bai, Zhuo Li, Hanpeng Li, Kai Mao, Yue Tian, "Height-Dependent LoS Probability Model for A2G MmWave Communications under Built-up Scenarios",  Preprint. https://arxiv.org/pdf/2109.02263.pdf

[6] Zhengran Xu, Liangliang Liu, Zhuo Li, "Band-stop Filter Based on Moire Spoof Surface Plasmon Polaritons", 2021 International Conference on Microwave and Millimeter Wave Technology, May 23-26, Nanjing, China. (Best Student Paper Honorable Mention).

 

 

2020

[1] H. Z. Zhao, Y. J. Zhou, J. Cai, Q. Y. Li, Z. Li, Z. Y. Xiao, "Ultra-high resolution sensing of glucose concentration based on amplified halfinteger localized surface plasmons mode", Journal of Physics D: Applied Physics 53 095305, 2020.

[2] Xinlei Chen, Xiuqiang Liu, Zhuo Li, and Changqing Gu, Efficient Calculation of Interior Scattering from Cavities with Partial IBC Wall, Electronics Letters, vol. 56, no. 17, pp. 871-873, 2020.

[3] H. F. Shang, Y. Liu, Z. Li, Y. B. Tian, "Broadband Bandpass Filter with Double-layered Spoof Surface Plasmon Waveguide as Main Transmission Line", International Journal of RF and Microwave Computer-Aided Engineering, Early access. 2020.

 

2019

[1] Z. Li*, L. L. Liu, A. I. Fernandez-Dominguez, J. F. Shi, C. Q. Gu, F. J. Garcia-Vidal* and Y. Luo*, "Mimicking Localized Surface Plasmons with Structural Dispersion", Advanced Optical Materials, 7，20190018, 2019.(Highlited on the Front Cover)

[2]J. F. Shi, Z. Li*, L. L. Liu*, K. Wang, Y. H. Sun and C. Q. Gu, "Lateral dimension tuned ultra-low loss effective surface plasmonic waveguide", Journal of Physics D: Applied Physics 52 105101, 2019.

[3] L. L. Liu*, L. Ran, H. D. Guo, X. L. Chen and Z. Li*,"Broadband Plasmonic Circuitry Enabled By Channel Domino Spoof Plasmons," PIER, Vol. 164, 109-118, 2019.

[4] L. Guo, H. P. Li, Y. Wang, Z. Li, J. G. Albeck, M. Zhao, Q. Qing, "Controlling ERK Activation Dynamics in Mammary Epithelial Cells with Alternating Electric Fields through Microelectrodes", Nano Lett. 2019, 19, 10, 7526–7533.

[5] H. Y. Sun, C. Q. Gu*, Z. Li, Q. Xu, M. M. Wei, J. J. Song, B. J. Xu, X. H. Dong, K. Wang, F. Martin*, "Parametric testing of metasurface stirrers for metasurfaced reverberation chambers", Sensors 2019, 19, 976

[6] W Chen, Z Niu, M Li, Z Li, Q Xu, C Gu, "Design and evaluation of planar bifilar helical antennas for radio frequency identification tags",IEEE Antennas and Wireless Propagation Letters, 18 (12), 2642-2646, 2019.

 

2018

[1] Z. Li*, Y. H. Sun, K. Wang, J. J. Song, J. F. Shi, C. Q. Gu, L. L. Liu and Y. Luo, "Tuning the dispersion of effective surface plasmon polaritons with multilayer systems", Optics Express,Vol.26, Issue 4, pp.4686-4697,2018.

[2] H. Y. Sun, Z. Li*, C. Q. Gu*, Q. Xu, X. L. Chen, Y. H. Sun, S. C. Lu and F. Martin, "Metasurfaced Reverberation Chamber", Scientific Reports(2018)8:1577.

[3] L. L. Liu, L. Wu, J. J. Zhang, Z. Li*, B. L. Zhang* and Y. Luo*, "Backward Phase-Matching for Second Harmonic Generation in Negative-Index Spoof Plasmonic Metamaterials", Advanced Science 5, 180661, 2018

[4] H. Y. Sun, C. Q. Gu, Z. Li, Q. Xu, J. J. Song, B. J. Xu and F. Martin,"Enhancing the number of modes in metasurfaced reverberation chamber for field uniformity improvement", Sensors 2018, 18, 3301

[5] H. J. Dai, Y. J. Zhao, H. Y. Sun, J. Q. Chen, Y. Ge and Z. Li, "An ultra-wideband linear polarization conversion metasurface", Japanese Journal of Applied Physics 57(9):090311 

[6] X. H. Dong, H. Y. Sun, C. Q. Gu*, Z. Li, X. L. Chen, B. J. Xu, "Reflective Metasurface For Vortex Wave Generating and Divergence Reducing in X-Band", Progress In Electromagnetics Research C, Vol.87, pp.97–106, 2018

[7] Z. Li*, C. Chen, J. Xu, Y. H. Sun, B. Z. Xu, L. L. Liu, H. Y. Sun, X. L. Chen, C. Q. Gu, "Tunable spoof surface plasmons bulleye antenna", Plasmonics , Vol.13, Issue 2, pp.697–703, April 2018.

 

 

 

2017

[1] Z. Li*, L. L. Liu, H. Y. Sun, Y. H. Sun, C. Q. Gu, X. L. Chen,  Y. Liu and Y. Luo, "Effective surface plasmon polaritons induced by modal dispersion in a waveguide", Phys. Rev. Applied  7, 044028, 2017 (Research Highlight in Nanyang Technological University, Singapore)（1区Top）

[2] Z. Li*, Y. H. Sun, H. Y. Sun, K. Wang, J. J. Song, L. L. Liu, X. L. Chen , C. Q. Gu, "Spoof surface plasmons tunneling through an epislon-near-zero material channel", Journal of Physics D: Applied Physics, 50 375105, 2017.

[3] B. Z. Xu, Z. Li*, L. L. Liu, J. Xu, C. Chen and C. Q. Gu,"Non-concentric textured closed surface for huge local field enhancement", Journal of Optics, Vol.19, No.1, 015005,2017. 

[4] L. L. Liu, Z. Li*, B. Z. Xu, C. Q. Gu, J. Xu, C. Chen, H. Y. Sun, Q. X. Xiao, Y. J. Zhou, Q. Qing, P. Shum, and Y. Luo*, "Ultra Low Loss High-Contrast Gratings based Spoof Surface Plasmonic Waveguide", IEEE Transactions on Microwave Theory and Techniques, Vol.65, Issue 6, pp.2008-2018, 2017.

[5] L. L. Liu, Z. Li*, B. Z. Xu, J. Xu, C. Chen, C. Q. Gu, "Fishbone-like high-efficiency low-pass plasmonic filter based on double-layered conformal surface plasmons", Plasmonics，Vol.12, Issue 2, pp.439-444, 2017

[6] H. Y. Sun, C. Q. Gu, X. L. Chen, Z. Li, L. L. Liu, B. Z. Xu, Z. C. Zhou,"Broadband and Broad-angle Polarization-independent Metasurface for Radar Cross Section Reduction", Scientific Reports 7,40782,2017

[7] H. Y. Sun, C. Q. Gu, X. L. Chen, Z. Li, L. L. Liu, and F. Martin, "Ultra-Wideband and Broad-Angle Linear Polarization Conversion Metasurface", Journal of Applied Physics 121 174902 (2017) 

[8] X. L. Chen, C. Fei, Y. Zhang, Z. Li, C. Q. Gu,"Fast Iterative Solution of EFIE Using ACA Algorithm With Sherman-Morrison-Woodbury Formula-Based Preconditioner", IEICE ELECTRONICS EXPRESS, 14(8), 2017

 

 

2016

[1] Z. Li*, L. L. Liu, B. Z. Xu,  P. P. Ning, C. Chen, J. Xu , X. L. Chen , C. Q. Gu, Q. Qing, "High-Contrast Gratings based Spoof Surface Plasmons", Scientific Reports, 6, 21199, 2016 

[2] Z. Li*, B. Z. Xu,  L. L. Liu, J. Xu, C. Chen, P. P. Ning, X. L. Chen and C. Q. Gu,"Localized Spoof Surface Plasmons based on Subwavelength Closed High Contrast Gratings: Concept and Microwave-Regime Realizations", Scientific Reports, 6, 27158, 2016 

[3] Z. Li*, J. Xu, C. Chen, Y. H. Sun, B. Z. Xu, L. L. Liu, C. Q. Gu, "Coplanar waveguide wideband band-stop filter based on localized spoof surface plasmons", Applied Optics, Vol.55, Issue 36, pp.10323-10328,2016.

[4] L. L. Liu, Z. Li*, B. Z. Xu,  P. P. Ning, C. Chen, J. Xu , X. L. Chen , C. Q. Gu,"Deep-subwavelength Guiding and Superfocusing of Spoof Surface Plasmon Polaritons on Helically Grooved Metal Wire", Plasmonics, Vol.11, Issue 2, pp.359-364,2016

[5] J. Xu, Z. Li*, L. L. Liu, C. Chen, B. Z. Xu, P. P. Ning, C. Q. Gu,"Low-pass plasmonic filter and its miniaturization based on spoof surface plasmon polaritons", Optics Communications 372(2016)155–159

[6] B. Z. Xu, Z. Li*, L. L. Liu, J. Xu, C. Chen and C. Q. Gu,"Bandwidth tunable microstrip bandstop filters based on localized spoof surface plasmons", Journal of the Optical Society of America B 33(7), 1388-1391 (2016)

[7] X. L. Chen, C. Q. Gu, Z. Li, Z. Y. Niu,"Sparsified Multi-level Adaptive Cross Approximation-Characteristic Basis Function Method for Fast Electromagnetic Scattering Analysis", Electromagnetics 36(7)pp.457-469, 2016.

[8] C. Fei, X. L. Chen*, Y. Zhang, Z. Li, C. Q. Gu, "A Hybrid Method to Accelerate the Calculation of Two-Dimensional Monostatic Radar Cross Section on PEC Targets", Progress In Electromagnetics Research, 50, pp.47-54, 2016.

[9] X. L. Chen, C. Q. Gu, Z. Li, Z. Y. Niu， “Accelerated Direct Solution of Electromagnetic Scattering via Characteristic Basis Function Method With Sherman-Morrison-Woodbury Formula-Based Algorithm”, IEEE Transaction on Antennas and Propagation, vol. 64, no. 10, 4482-4486, 2016.

[10] Y. Zhang, X. L.. Che, C. Fei, Z. Li, C. Q. Gu,"Fast direct solution of composite conducting-dielectric arrays using sherman-morrison-woodbury algorithm", Progress In Electromagnetics Research M 49:203-209, 2016

[11] X. L. Chen, C. Q. Gu, A. Heldring, Z. Li, and Q. S. Cao, "Error Bound of the Multilevel Adaptive Cross Approximation (MLACA)," IEEE Transaction on Antennas and Propagation, vol. 64, no. 1, 374-378, 2016.

 

2015

[1] L. L. Liu, Z. Li*, B. Z. Xu, C. Q. Gu, C. Chen, P. P. Ning, X. L. Chen, "High-efficiency transition between rectangular waveguide and domino plasmonic waveguide", AIP Advances 5, 027105,2015.

[2] L. L. Liu, Z. Li*, C. Q. Gu, C. Chen, P. P. Ning, B. Z. Xu, Z. Y. Niu, Y. J. Zhao, "Smooth bridge between guided waves and spoof surface plasmon polaritons", Optics Letters, Vol. 40, Issue 8, pp. 1810-1813 (2015).

[3] L. L. Liu, Z. Li*, B. Z. Xu,  P. P. Ning, C. Chen, J. Xu , X. L. Chen , C. Q. Gu,"Dual-band trapping of spoof surface plasmon polaritons and negative group velocity realization through microstrip line with gradient holes", Applied Physics Letters, 107, 201602, 2015.

[4] B. Z. Xu, Z. Li*, L. L. Liu, J. Xu, C. Chen, P. P. Ning, X. L. Chen and C. Q. Gu, "Tunable band-notched coplanar waveguide based on localized spoof surface plasmons" , Optics Letters, Vol.40, No.20,4683-4686,2015.

[5] C. Chen, Z. Li*, L. Liu, J. Xu, P. Ning, B. Xu, X. L. Chen, and C. Q. Gu, "A circularly-polarized metasurfaced dipole antenna with wide axial-ratio beamwidth and RCS reduction functions," Progress In Electromagnetics Research, Vol.154, 79-85, 2015.

[6] X. L. Chen, C. Q. Gu, Z. Li, Z. Y. Niu, "Efficient iterative solution of electromagnetic scattering using adaptive cross approximation enhanced characteristic basis function method", IET Microwaves, Antennas & Propagation, 9(3), pp 217-223, 2015.

[7] X. L. Chen, C. Q. Gu, Z. Li, Z. Y. Niu, "Multilevel Fast Adaptive Cross-Approximation Algorithm With Characteristic Basis Functions", IEEE Transactions on Antennas and Propagation 63(9):3994-4002，2015.

 

2014

[1] Z. Li*, L. L. Liu, C. Q. Gu, P. P. Ning, B. Z. Xu, Z. Y. Niu, Y. J. Zhao, "Multi-band localized spoof plasmons with texturing closed surfaces", Applied Physics Letters 104, 101603, 2014.

[2] Z. Li*, B. Z. Xu, C. Q. Gu, P. P. Ning, L. L. Liu, Z. Y. Niu, Y. J. Zhao, "Localized Spoof Plasmons in Closed Textured Cavities", Applied Physics Letters 104, 251601, 2014.

[3] L. L. Liu, Z. Li*, C. Q. Gu, P. P. Ning, B. Z. Xu, Z. Y. Niu, Y. J. Zhao, "A corrugated perfect magnetic conductor surface supporting spoof surface magnon polaritons", Optics Express vol.22, Iss. 9,pp.10675-10681 (2014).

[4] L. L. Liu, Z. Li*, C. Q. Gu, P. P. Ning, B. Z. Xu, Z. Y. Niu, and Y. J. Zhao, "Multi-channel composite spoof surface plasmon polaritons propagating along periodically corrugated metallic thin films", Journal of Applied Physics, 116,013501,2014.

[5] B. Z. Xu, C. Q. Gu, Z. Li, L. L. Liu, "Circuit model for graphene-based absorber at low-terahertz frequencies" Journal of Physics D: Applied Physics 47, 255103 2014.

[6] B. Z. Xu, C. Q. Gu, Z. Li, L. L. Liu and Z. Y. Niu, "A novel absorber with tunable bandwidth based on graphene", IEEE Antennas and Wireless Propagation Letters, pp.822-825 VoL. 13, 2014.

[7] X. L. Chen, C. Q. Gu, Z. Y. Niu, and Z. Li, "Fast Adaptive Cross-Sampling Scheme for the Sparsified Adaptive Cross Approximation," IEEE Antennas and Wireless Propagation Letters, Vol.13, No., pp.1061-1064, 2014.

[8] B. Z. Xu, Z. Li*, C. Q. Gu, P. P. Ning, L. L. Liu, Z. Y. Niu and Y. J. Zhao, "Multi-band Localized Spoof Plasmons in Closed Textured Cavities," Applied Optics, Vol.53, Issue 30, pp.6950-6953, 2014.

 

 

2013

[1]  Z. Li*, L. L. Liu, J. Yan, A. W. Xu, Z. Y. Niu and C. Q. Gu, "An Efficient Simplification Scheme for Modeling Crosstalk of Complex Cable Bundles Above an Orthogonal Ground Plane," IEEE Transactions on Electromagnetic Compatibility pp. 975-978, Vol.55, No.5, 2013.

[2]  L. L. Liu, Z. Li*, J. Yan and C. Q. Gu, "Application of the ECBM  for Modeling Crosstalk of Complex Cable Bundles within Uniform Structure with Arbitrary Cross-Section," Progress In Electromagnetics Research, Vol. 141, 135-148, 2013.

[3]  L. L. Liu, Z. Li*, J. Yan and C. Q. Gu, "Simplification Method for Modeling Crosstalk of Multi-coaxial Cable Bundles," Progress in Electromagnetics Research,PIER, Vol.135, pp. 281-296, 2013.

[4]  J. Yan, Z. Li*, L. L. Liu and C. Q. Gu, "Multiconductor Reduction Method for Modeling Crosstalk of Complex Cable Bundles in the Vicinity of a 60 Degree Corner," Progress In Electromagnetics Research M, Vol. 28, pp. 201-211, 2013.

[5]  X. Q. Deng, C. Q. Gu, B. Z. Xu, and Z. Li,"Analysis of Left-handed Materials using Fast Dipole Method Based on Volume Integral Equation," Progress in Electromagnetics Research, PIER, (Accepted)

[6]  J. Ding, C. Q. Gu, Z. Li, Z. Y. Niu, "Analysis of Transient Electromagnetic Scattering using Time Domain Fast Dipole Method,"  Progress In Electromagnetics Research, Vol. 136, pp. 543-559, 2013.

[7]  X. Q. Deng, C. Q. Gu, B. Z. Xu and Z. Li, "Scattering Analysis of Electromagnetic Materials Using Fast Dipole Method Based on Volume Integral Equation," International Journal of Antennas and Propagation，Vol. 2013, Article ID 501413.

[8]  B. Z. Xu, C. Q. Gu, Z. Li, Z. Y. Niu, "A novel structure for tunable terahertz absorber based on graphene", Optics Express, Vol. 21, Issue 20, pp. 23803-23811 ,2013.

[9]  X. L. Chen, C. Q. Gu, J. Ding, Z. Li, Z. Y. Niu,"Direct Solution of Electromagnetic Scattering from Perfect Electric Conducting Targets Using Multilevel Characteristic Basis Function Method With Adaptive Cross Approximation Algorithm", IET Microwaves, Antennas & Propagation, Vol. 7, Iss. 3, pp. 195–201, 2013

 

2012

[1]  Z. Li*, L. L. Liu, J. Ding, M. H. Cao, Z. Y. Niu and C. Q. Gu, "A New Simplification Scheme for Crosstalk Prediction of Complex Cable Bundles within a Cylindrical Cavity," IEEE Transactions on Electromagnetic Compatibility, pp. 940-943, Vol.54, No.4, 2012

[2]  Z. Li*, L. L. Liu and C. Q. Gu, "Generalized Equivalent Cable Bundle Method for Modeling EMC Issues of Complex Cable Bundle Terminated in Arbitrary Loads," Progress in Electromagnetic Research, PIER, Vol.123, pp.13-30, 2012.

[3]  X. L. Chen, Z. Y. Niu, C. Q. Gu, Z. Li, "Fast Dipole Method for Electromagnetic Scattering from Perfect Electric Conducting Targets," IEEE Transactions on Antennas and Propagation, pp. 1186-1191, Vol.60, No.2, 2012

[4]  X. L. Chen, Z. Y. Niu, C. Q. Gu, Z. Li,"Reply to Comments on "Fast Dipole Method for Electromagnetic Scattering From Perfect Electric Conducting Targets", IEEE Transactions on Antennas and Propagation,  pp.6063- 6064, Vol.60, No.12, 2012.

[5]  X. Q. Deng, C. Q. Gu, B. Z. Xu, and Z. Li,"A Fast Volume-Surface Integral Equation Solver for Scattering for High-Contrast Materials," Progress In Electromagnetics Research M, Vol. 27, 83-95, 2012.

[6]  X. L. Chen, Z. Li, Z. Y. Niu, C. Q. Gu, "Multilevel Fast Dipole Algorithm for Electromagnetic Scattering from Perfect Electric Conducting Targets," IET Microwaves, Antennas & Propagation，Vol. 6 , Issue 3,pp.263-268, 2012.

[7]  X. L. Chen, C. Q. Gu, B. Z. Xu, Z. Li, and Z. Y. Niu, "Parallelized Multilevel Fast Dipole Method For Electromagnetic Scattering From PEC Targets", Journal of Electromagnetic Waves and Applications, Vol. 26, No. 5-6, 593-602, 2012.

[8]  X. L. Chen, Z. Y. Niu, Z. Li, and C. Q. Gu, "Fast Solution of Volume-Surface Integral Equation for Scattering from Composite Conducting-Dielectric Targets Using Multileve Fast Dipole Algorithm," International Journal of RF and Microwave Computer-Aided Engineering, pp.624-631,Vol.22, No.5, 2012.

[9]  X. L. Chen, Z. Li, Z. Y. Niu, and C. Q. Gu, "Analysis of electromagnetic scattering from PEC targets using improved fast dipole method," Journal of Electromagnetic Waves and Applications, Vol. 25, No. 6, pp.2254-2263, 2012.

[10] J. Ding, C. Q. Gu, Z. Li and Z. Y. Niu, "Analysis of transient electromagnetic scattering using time domain equivalent dipole moment method," Journal of Electromagnetic Waves and Applications, Vol. 25, No. 6, 2012.

[11] X. L. Chen, C. Q. Gu, J. Ding, X. Q. Deng, Z. Y. Niu and Z. Li, "An Equivalent Dipole-Moment Method Based Multilevel Fast Multipole Algorithm for Dielectric Objects," Applied Computational Electromagnetics Society Journal, Vol.27, No.5, pp. 408-412, May, 2012.

[12] X. L. Chen, C. Q. Gu, J. Ding, X. Q. Deng, Z. Y. Niu and Z. Li, "A Hybrid ACA-FDM for Electromagnetic Scattering from PEC Targets," Applied Computational Electromagnetics Society Journal, Vol.27, No.12, pp. 964-970, December, 2012.

[13]  邓小乔, 陈新蕾, 李茁, 牛臻弋, 顾长青, "一种快速计算电磁各向异性介质目标RCS的新方法," 南航学报, Vol.44, No.4, pp.570-574, Aug. 2012.

 

2011

[1]  Z. Li*, Z. J. Shao, J. Ding, Z. Y. Niu and C. Q. Gu, "Extension of the "Equivalent Cable Bundle Method" for Modeling Crosstalk of Complex Cable Bundles," IEEE Transactions on Electromagnetic Compatibility, pp.1040-1049, Vol.53, No.4, 2011.

[2]  S. Tian, Z. Li*, C. Q. Gu, "Equivalent Electromagnetic Currents on Infinite Stratified Homogeneous Bianisotropic Media Backed by A PEC Layer," Applied Computational Electromagnetic Society Journal, Vol. 26, No. 3, pp.206 -216, 2011.

[3]  X. L. Chen, Z. Li, Z. Y. Niu, and C. Q. Gu, "Analysis of Electromagnetic Scattering from PEC Targets Using Improved Fast Dipole Method," Journal of Electromagnetic Waves and Applications, Vol. 25, No. 16, 2254-2263, 2011.

[4]  X. L. Chen, Z. Y. Niu, Z. Li, and C. Q. Gu, "A Hybrid Fast Dipole Method and Adaptive Modified Characteristic Basis Function Method for Electromagnetic Scattering from Perfect Electric Conducting Targets," Journal of Electromagnetic Waves and Applications, Vol. 25, pp. 1940–1952, 2011.

[5]  X. L. Chen, Z. Li, Z. Y. Niu and C. Q. Gu, "An Equivalent Dipole-Moment Method Based Multilevel Fast Multipole Algorithm for Inhomogeneous Dielectric Objects," Journal of Electromagnetic Waves and Applications, pp. 2254-2263, Vol. 25, No. 16, 2011.

[6]  陈新蕾, 邓小乔, 牛臻弋, 李茁, 顾长青, "电各向异性介质目标散射分析的快速偶极子法," 系统工程与电子技术, Vol. 33, No. 11, pp.2372-2376, 2011.

[7]  陈新蕾, 邓小乔, 李茁, 牛臻弋, 顾长青, "金属介质混合目标散射分析的快速偶极子法," 电子与信息学报, Vol. 33, No. 11, pp.2790-2794, Nov., 2011.

[8]  顾长青, 邵志江, 李茁, 丁吉, "一种分析线束串扰的等效方法," 电波科学学报, Vol. 26, No. 3, pp. 509-514, 2011.

 

2010

[1]  Z. Li*, T. J. Cui, "High Frequency Methods for Simulation of High Resolution Imaging in Terahertz Regime," Journal of Infrared, Millimeter and Terahertz Waves, Vol.31, No.3, pp.349-357, 2010.

[2]  J. D. Yuan, C. Q. Gu and Z. Li, "Electromagnetic Scattering by Arbitrarily Shaped Stratified Anisotropic Media using the Equivalent Dipole Moment Method," International Journal of RF and Microwave Computer-Aided Engineering, Vol.20, Issue 4, pp. 416 - 421, 2010.

[3]  J. D. Yuan, Z. Y. Niu, Z. Li and C. Q. Gu, "Electromagnetic Scattering by Arbitrarily Shaped PEC Targets Coated with Anisotropic Media Using Equivalent Dipole-moment Method," Journal of Infrared, Millimeter and Terahertz Waves, Vol.31, No.3, pp.744-752, 2010.

[4]  邵志江, 丁吉, 顾长青, 李茁,"一种分析双绞线串扰的时域方法," 微波学报,2010.8

 

2009

[1]  Z. Li*, T. J. Cui, X. J. Zhong, Y. B. Tao, and H. Lin, "Electromagnetic Scattering Characteristics of PEC Targets in Terahertz Regime," IEEE Antennas and Propagation Magazine, Vol. 51, No.1, pp.39-50, 2009.

 

2008

[1]  W. X. Jiang, J. Y. Chin, Z. Li, Q. Cheng, R. P. Liu, and T. J. Cui, "Analytical design of conformally invisible cloaks for arbitrarily shaped objects," Physical Review E, Vol. 77, Issue 6, 2008.

 

2007

[1]  Z. Li, T. J. Cui and J. F. Zhang, "TM wave coupling for high power generation and transmission in parallel-plate waveguide," Journal of Electromagnetic Waves and Applications, Vol. 21, No. 7, pp. 947-961, 2007.

[2]  Z. Li and T. J. Cui, "Novel waveguide directional couplers using left-handed materials," Journal of Electromagnetic Waves and Applications, Vol. 21, No. 8, pp.1053-1062, 2007.

[3]  Z. Li and T. J. Cui, "Sandwich-structure waveguides for very high-power generation and transmission using left-handed materials," Progress in Electromagnetics Research, PIER 69, pp.101-116, 2007.

[4]  X. J. Zhong, T. J. Cui, Z. Li and Y. B. Tao, H. Lin, "Terahertz-Wave Scattering by Perfectly Electrical Conducting Objects," Journal of Electromagnetic Waves and Applications, Vol. 21, No. 15, 2331-2340, 2007.

 

 

2006

[1]  Z. Li, T. J. Cui and J. F. Zhang, "High-power emission, narrow-beam scanning, and sub-wavelength imaging using conducting gratings and left-handed materials," Microwave and Optical Technology Letters, Vol. 48, pp. 2359-2365, Nov. 2006.

[2]  李茁, 顾长青, 徐金平, "复杂载体上Koch分形天线的矩量法分析," 微波学报, Vol.22 (6), pp.22-26, 2006.

 

2005

[1]  吴海峰, 顾长青, 李茁, "带旋转叶片腔体的电磁特性分析," 电波科学学报, Vol.20 (6), pp.749-752, 2005.

 

科研成果获奖及专利：

学术兼职和获奖：

1. Outstanding Reviewer for Journal of Physics D: Applied Physics 2016

2. Advisory Panel Member for Journal of Physics D: Applied Physics till Dec.2018

3. Guest Editor of Frontiers in Physics since Oct. 2017

4. Outstanding Reviewer for Nano-Micro Letters 2017

5. 2019年中国电子学会科学技术二等奖

6. 2022年江苏省科学技术一等奖

 

 

TPC Members and session chair for 2018 Cross Strait Quad-Regional Radio Science and Wireless Technology Conference

Session co-chair for 2019 IEEE International Conference On Computational Electromagnetics

 

教学获奖：

2012年南航研究生科创新秀指导教师

2015年所指导研究生团队获校创新团队提名

2016年校优秀硕士论文指导教师

2019年校教学优秀二等奖

2021年校优秀硕士论文指导教师

 

授权专利：

[1]李茁、刘亮亮、徐佳、顾长青、陈晨、孙恒一，“一种直角地面上方线缆束终端串扰的快速预测方法”，国家发明专利 专利号： ZL201210554470.3, 申请日：2012.12.19，授权公告日：2016.02.10

[2]李茁、刘亮亮、陈晨、顾长青、许秉正、宁苹苹、陈星宇，“一种同轴波导到人工表面等离子波导转换器”，国家发明专利，专利号：ZL201410207024.4，申请日：2014.05.15，授权公告日：2016.04.06

[3]李茁、刘亮亮、陈晨、顾长青、许秉正、宁苹苹“一种超宽带人工表面等离子滤波器”，国家发明专利，专利号：ZL201410348649.2 申请日：2014.07.21，授权公告日：2016.05.04

[4]李茁、宁苹苹、刘亮亮、陈晨、顾长青、许秉正，“一种螺旋形人工表面等离子场强增强器”，国家发明专利，专利号：ZL201410626252.5 申请日：2014.11.07，授权公告日：2017.02.15

[5]李茁、陈晨、刘亮亮、徐佳、王婷婷、许秉正、陈新蕾、顾长青，“一种宽角圆极化超表面天线”，国家发明专利，专利号：ZL201510710926.4 申请日：2015.10.27，授权公告日：2019.02.12

[6]李茁、刘亮亮、许秉正、宁苹苹、刘亮亮、陈新蕾、顾长青、陈晨、徐佳，“一种基于人工表面等离激元的陷波共面波导” 国家发明专利，申请号: ZL201510359153.X 申请日：2015.06.25，授权公告日：2018.06.26

[7]刘亮亮、李茁、宁苹苹、徐佳、许秉正、陈晨、顾长青、陈新蕾，“一种超宽带人工表面等离子激元低通滤波器”，国家发明专利，专利号：ZL201510591849.5 申请日：2015.09.17，授权公告日：2018.06.26

[8]刘亮亮、李茁、顾长青、许秉正、宁苹苹、陈晨、陈星宇，“一种矩形波导到多米诺等离子波导转换器”，国家发明专利，专利号：ZL201410206757.6  申请日：2014.05.15，授权公告日：2016.03.30

[9]刘亮亮、李茁、陈晨、顾长青、许秉正、宁苹苹，“一种人工表面等离子场强增强器”，国家发明专利，专利号：ZL201410318752.2 申请日：2014.07.04，授权公告日：2016.11.23

[10]刘亮亮、李茁、陈晨、宁苹苹、许秉正、顾长青，“一种新型宽带表面等离子带通滤波器”，国家发明专利，专利号: ZL201510131731.4 申请日：2015.03.24，授权公告日：2017.09.26

[11]许秉正、李茁、顾长青、刘亮亮、宁苹苹、陈晨，“一种双频带表面等离子体谐振腔”，国家发明专利，专利号：ZL201410318728.9 申请日：2014.07.04，授权公告日：2016.05.04

[12]刘建业，颜建，李茁，徐安旺，“一种加长型板对板射频同轴连接器”，实用新型专利，专利号:201520137095.1

[13]陈新蕾、顾长青、李茁、牛臻弋,“一种分析导体电磁散射的稀疏化多层自适应交叉近似方法”，国家发明专利，专利号：ZL201410226141.5 申请日：2014.05.26，授权公告日：2017.01.25

[14]陈新蕾、张杨、费超、顾长青、李茁、牛臻弋，“一种基于CBFM和SMW算法的电磁散射快速分析方法”，国家发明专利，专利号：ZL201610404433.2 申请日：2016.06.08，授权公告日：2018.10.19

[15]陈新蕾、张杨、费超、李茁、顾长青，“一种快速求解局部变化目标的电磁散射特性的方法”，国家发明专利，专利号：ZL201610248772.6 申请日：2016.04.20，授权公告日：2018.09.04

[16]陈新蕾、费超、张杨、顾长青、李茁，“一种快速自适应地生成激励无关特征基函数的方法”，国家发明专利，专利号：ZL201610105762.7 申请日：2016.02.25  授权公告日：2018.12.04

公示专利：

[17]李茁、孙恒一、顾长青，“超表面混响室”，国家发明专利，申请号：201810065523.2，申请日：2018.01.23

[18]李茁、许秉正、徐佳、陈晨、刘亮亮、陈新蕾、顾长青，“一种基于人工表面等离激元的极化传感器”，国家发明专利，申请号：201610886065.X 申请日：2016.10.10

[19]孙运何、李茁、孙恒一、汪宽、宋佳佳、陈新蕾、顾长青，“人工表面等离激元的遂穿效应及其工作方法”，国家发明专利，申请号：201710234942.X 申请日：2017.04.12

[20]汪宽、李茁、宋佳佳、董晓航、徐佰杰、季玉雷、陶满，“基于等效表面等离子激元的宽带带通滤波器及其工作方法”，国家发明专利，申请号：201810238330.2 申请日：2018.03.22

[21]陈新蕾、孙恒一、顾长青、李茁、刘亮亮、许秉正、周子成，“一种超薄超宽带线极化电磁波极化转换器”，国家发明专利，申请号：201611166528.1  申请日：2016.12.16

[22]李茁、季玉雷、陶满，“基于等效局域型表面等离激元的介质谐振器及其工作方法”，国家发明专利，申请号：201910030593.9 申请日：2019.01.14

[23]陈新蕾、费超、张杨、顾长青、李茁，“一种快速分析宽带RCS的算法”，国家发明专利，申请号：201610782556.X 申请日：2016.8.29

承担的科研项目情况：

科研项目：

1.“电调编码超表面电波混响室”，江苏省六大人才高峰项目（2018.10-2020.10）GDZB-009（项目负责人）

2.“等效表面等离激元的物理机制与器件研究”，国家自然科学基金面上项目（2019.1-2019.12）61871215（项目负责人）

3.“广义等效线束法及其在复杂EWIS电磁兼容性分析中的应用研究”，国家自然科学基金青年基金（2012.1～2014.12）61102033（项目负责人）

4.“飞机表面缺陷电磁散射分析”，空装预研基金，（2011.01～2015.12）（项目负责人）

5. 江苏省青年科技人才托举工程资助项目，2018年7月-2019年7月，（项目负责人）

6.“基于亚波长介质周期结构的人工表面等离激元的新型微波器件研究”，江苏省自然科学基金面上项目（2015.7-2017.7）BK20151480（项目负责人）

7.“民用飞机EWIS线束电磁兼容性研究”，航空科学基金（2012.10～2014.10）20128052063（项目负责人）

8.“GECBM与MLFDA的混合算法及其在大型客机舱室内部线束电磁兼容性分析中的应用研究”，毫米波国家重点实验室开放基金（2013.1～2014.12）K201302（项目负责人）

9.“涂覆隐身材料导体目标电磁散射特性的高低频混合算法研究”，毫米波国家重点实验室开放基金（2010.1～2011.12）K201003（项目负责人）

10.“基于亚波长介质周期结构的人工表面等离激元的传输与谐振特性研究”，毫米波国家重点实验室开放基金（2016.1～2017.12）K201603（项目负责人）

11.“基于亚波长介质周期结构的人工表面等离激元产生机理与关键技术研究”，中央高校基本科研业务费专项基金（2016.1～2018.6）NS2016039（项目负责人）

12.“***飞行器隐身设计”，横向项目（项目负责人）

13.“无人机电磁环境预测研究”,中央高校基本科研业务费专项基金（2012.1～2013.12）NS2012096（项目负责人）

14.“基于特征基函数的快速算法研究”，中央高校基本科研业务费专项基金（2014.1～2015.12）NJ20140009（项目负责人）

15.“高效MLFMA/SBR的混合算法研究与软件开发”，横向项目（项目负责人）

16.“高透光型卫星太阳能电池阵吸波器研究”，横向项目（2018.6-2019.6）（项目负责人）

17.“电磁场积分方程中的等效偶极矩方法及其应用研究”，国家自然科学基金面上项目（2010.12-2013.12）61071019（参与）

18.“高阶龙格-库塔多分辨时域方法及其电磁场散射问题中的应用”，国家自然科学基金面上项目（2007.12-2010.12）60071018（参与）

19.“Morpho蝴蝶翅膀微结构电磁散射特性时域有限元方法研究”，国家自然科学基金青年项目（2006.12-2009.12）60601024（参与）

20.“大规模有限周期结构电磁特性的快速计算方法研究”，国家自然科学基金面上项目（2006.12-2009.12）60601002（参与）

21.“基于NURBS曲面的弹跳射线法的GPU加速”，国家自然科学基金青年项目（2008.12-2011.12）60802001（参与）

22.“宽体客机复材机身天线地平面影响测试研究”，横向项目（2018.5-2019.5）（子项目负责人）

 

教改项目：

1.“天线原理（核心课程视频课）”，（2014.8.31-2015.12.30）1404ZJ01SP06（项目负责人）

2.“天线原理（双语课）”，（2014.8.31-2015.12.30）1404ZJ01XX07（项目负责人）

3.“基于微信平台的移动微型课程教学模式研究”，（2016.12.1-2018.12.31）1604ZJ01JG01（项目负责人）

4.“微波技术与天线教学团队”，（2018.6.30-2021.6.30）1804ZJ08TD02（项目负责人）

5.“电磁超构技术与应用”，（2023.6.30-2025.6.30）2023JG0214X，1-2“项目式课程”建设（项目负责人）

6.“面向航空航天类电子信息卓越专业硕士的产教融合育人机制研究”，2023年校研究生教育教学改革研究项目，（2023.6.30-2025.6.30）2023YJXGG14，（项目负责人）

7. “电磁超构器件与系统”，2023年校研究生教育教学改革专项（优质教学资源建设）项目-C专业学位研究生课程教学案例库建设项目，（2023.6.30-2025.6.30），2023YJXGG-C08（项目负责人）

指导硕士生 30人，博士生8名，协助指导博士生 6人（1人获江苏省优秀博士论文）
2009级 田森（高低频混合算法研究）(华为）
2010级 刘亮亮(线缆电磁兼容研究，表面等离激元，2012年全校研究生科创新秀（全校12名），科研创新先进个人, 2012年和2015年国家奖学金获得者，2016年工信创新奖二等奖）（南京信息工程大学，2017年新加坡南洋理工大学EEE Research Fellow, 2018年江苏省优秀博士论文）
2011级 曹明慧（RFID阅读器天线小型化研究）（杭电）
2012级 颜建（B2B 射频同轴连接器研究） 徐安旺（B2B 射频同轴连接器研究）（盐城农行）
2013级 宁苹苹（Spoof Localized Surface Plasmons) （南京爱立信）
2014级 陈晨（Metasurface天线设计）(2016年国家奖学金，2016年工信创新奖三等奖）徐佳（SSPP的理论研究和器件设计）（校优秀硕士论文）
2015级 孙运河（ESPPs理论与应用）（2017年工信创新奖三等奖，2017苏州工业园区奖学金）
2016级 汪宽（ESPPs的场增强和聚焦）（上海615） 宋佳佳（Metasurface混响室）（西安华为）
2017级 陶满（优化方法及圆极化器） 季玉雷（正交模耦合器、基于ESPPs的介质参数测量系统）
2018级 姜琦（ELSPs杂化与传感器）于亚茹（ELSPs带通滤波器，2021年校优秀硕士论文获得者）赵玙璠（光透明柔性微波吸波器)

2019级 徐铮然（Moire SPP）张耀然（PT-Symmetry）（博士生）

2020级 李新华（ELSPs天线设计）周子湘（ELSPs双工器和带阻滤波器）申锦芮（单向散射天线与隐身设计）

2021级 薛华晨  付哲鹏  丛辉   汪茹（博士生） 曹宇翔 （博士生）

2022级 冯玥   张毅  李其轩 杨玉琨（博士生） 

2023级 崔秦溶 孙紫璇 郭知一 姜俊凯（博士生）牛琛琛（博士生）罗巍（博士生）仲瑶（博士生）

指导的研究生工作组多次获得校研究生创新团队

欢迎加入我们课题组！

备注：

担任AM，LPR，AFM， AOM，ACS Photonics, APL，OL，OE, AO, Nanotechnology, Nano-Micro Letters, IEEE TMTT, IEEE TAP, IEEE TEMC, IEEE ACCESS, IEEE Journal of LightWave Technology, Journal of Applied Physics, Journal of Physics D:Applied Physics, Journal of Quantitative Spectroscopy & Radiative Transfer,PIER, JEMWA, Journal of Systems Engineering and Electronics, ACES, 北京航空航天大学学报，东南大学学报，计算物理，测控技术等期刊审稿人。Advisory Panel Member for Journal of Physics D: Applied Physics欢迎有电磁场微波基础的学生积极报考，Feel free to contact me @：lizhuo@nuaa.edu.cn or zhuoliccem@gmail.com办公室：南航江宁校区电子信息工程学院楼522。对学生的要求：积极主动，踏实肯干，切忌浮躁。

教育经历

• 1994.9 -- 1997.7

武汉市华中师范大学第一附属中学       普通高中毕业

• 2005.3 -- 2009.4

东南大学       电磁场与微波技术       博士研究生毕业       工学博士学位

• 2001.9 -- 2004.3

南京航空航天大学       电磁场与微波技术       硕士研究生毕业       工学硕士学位

• 1997.9 -- 2001.6

南京航空航天大学       电子信息工程       大学本科毕业       工学学士学位

工作经历

• 2015.12 -- 2016.12

美国亚利桑那州立大学      物理系      访问学者

• 2013.5 -- 2015.5

江苏吴通通讯集团      设计部      企业博士后      开展新型B2B同轴连接器设计和研发

• 2004.4 -- 2012.4

南京航空航天大学

研究方向

• [1] 表面等离激元和低频表面等离激元

• [2] 超构材料和超构表面理论及其应用

• [3] 电波混响室理论及其测试应用

• [4] 微波无源器件和电路设计

• [5] 板对板同轴连接器