1. 国家自然科学基金青年项目，有源功率依赖性电抗表面的线性化关键技术研究，2019/01-2021/12，24万元，主持；

2. 中国博士后科学基金面上资助，面向能量域电磁波调控的数字编码超表面研究，2018/11-2020/03，5万元，主持；

3. 东南大学博士后重点科研资助计划A类，动态可调控非线性数字超表面，2019/01-2020/03，5万元，主持；

4. 江苏省博士后科研资助计划，功率依赖自适应超表面研究，2018/11-2020/03，2万元，主持；

5. 东南大学“至善青年学者”支持计划，2021-2023，30万元，主持；

6. 中央高校基本科研业务费，2020-2021，20万元，主持；

7. 横向项目，XXXX，2020/06-2021/06，29.5万元，主持；

8. 横向项目，XXXX，2021/06-2022/06，29.9万元，主持；

9. 横向项目，XXXX，2020/06-2021/12，49.8万元，主持；

10. 美国自然科学基金，Active and Nonlinear Artificial Impedance Surface，2013/07-2014/09，36.5万美元，参与。

期刊论文：

1. Zhangjie Luo, X. Ren, L. Zhou, Y. Chen,Q. Cheng, H. F. Ma, and T. J. Cui, “A High-Performance Nonlinear Metasurfacefor Spatial-Wave Absorption,” AdvancedFunctional Materials, 32(16), 202109544, 2022. (期刊影响因子:  18.808)

2. C. Liu, Q. Ma, Zhang Jie Luo, Q. R. Hong, Q. Xiao, H. C. Zhang, L. Miao, W. M. Yu, Q. Cheng, L. Li, and T. J. Cui, “A programmable diffractive deep neural network based on a digital-coding metasurface array,” Nature Electronics, 2022. (期刊影响因子:  33.686)

3. Zhangjie Luo, X. Ren, Q. Wang, Q. Cheng, and T. J. Cui, “Anisotropic and nonlinear metasurface for multiple functions,” Science China Information Sciences, 64, 192301, 2021. (期刊影响因子: 4.380)

4. Zhangjie Luo, M. Z. Chen, Z. X.Wang, L. Zhou, Y. B. Li, Q. Cheng, H. F. Ma, and T. J. Cui, “Digital NonlinearMetasurface with Customizable Nonreciprocity,” Advanced Functional Materials, 29(49), 1906635, 2019. (中信所表现不俗论文)(期刊影响因子:  18.808)

5. Zhangjie Luo, Q. Wang, X. G. Zhang,J. W. Wu, J. Y. Dai, L. Zhang, H. T. Wu, H. C. Zhang, H. F. Ma, Q. Cheng, T. J. Cui, “Intensity-Dependent Metasurface with Digitally Reconfigurable Distribution of Nonlinearity,” Advanced Optical Materials, 19, 1900792,2019. (正面封面论文，中信所表现不俗论文)(期刊影响因子:  9.926)

6. A. Li, Zhangjie Luo (共同一作), H. Wakatsuchi, S. Kim, D. Sievenpiper, “Nonlinear, Active,and Tunable Metasurfaces for Advanced Electromagnetics Applications,” IEEE Access,5, 27439-27452, 2017. (期刊影响因子: 3.367)

7. Zhangjie Luo, J. Long, X. Chen, D. Sievenpiper,“Electrically tunable metasurface absorber based on dissipating behavior of embedded varactors,” Applied Physics Letters, 109, 071107,2016. (期刊影响因子: 3.792)

8. Zhangjie Luo, X. Chen, J. Long, R. Quarfoth, D. Sievenpiper, “Self-Focusing of Electromagnetic Surface Waves on a Nonlinear Impedance Surface,” Applied Physics Letters, 106, 211102, 2015. (期刊影响因子: 3.792)

9. Zhangjie Luo, X. Chen, J.Long, R. Quarfoth, D. Sievenpiper, “Nonlinear Power-Dependent Impedance Surface,” IEEE Transactions on Antennas and Propagation,63(4), 1736-1745, 2015. (期刊影响因子: 4.388)

10. X. Chen, Zhangjie Luo, Z. Zheng, P.Feng, K. Huang, “Effective Reflective Characteristics of Superstrates and Their Effects on the Resonant Cavity Antenna,” IEEE Transactions on Antennas and Propagation, 63(4), 1572-1580, 2015. (导师一作)(期刊影响因子: 4.388)

11. Zhangjie Luo, X. Chen, K.Huang, “A Novel Electrically-small Microstrip Genetic Antenna,” Journal of Electromagnetic Waves and Applications, 24, 513-520, 2010.   (期刊影响因子:1.335)

12. Zhangjie Luo, T. J. Cui, H. F. Ma, “Cutoffmanipulation of anisotropic reactance lining in circular waveguides,” International Journal of Microwave and Wireless Technologies, 11, 334-340, 2019. (期刊影响因子:1.064)

13. S. Li, Y. Li, L. Zhang, Zhangjie Luo, et al., “Programmable Controls to ScatteringProperties of a Radiation Array,” Laser& Photonics Review, 15(2): 2000449, 2021. (期刊影响因子: 13.138)

14. L. Zhou, X. Duan, Zhangjie Luo, et al., “High Directivity Fabry–Perot Antenna witha Nonuniform Partially Reflective Surface and a Phase Correcting Structure,” IEEE Transactions on Antennas andPropagation, 68(11), 7601-7606, 2020. (期刊影响因子: 4.388)

会议论文：

1.  Zhangjie Luo, C. Xue, T. J. Cui,“Effect of Anisotropic Metasurface Linings on Circular Waveguide,” Progress In Electromagnetics Research Symposium, Toyama, 2018. (EI, 获青年科学家奖)

2. Zhangjie Luo, T. J. Cui,“The Development of Nonlinear Metasurface Absorbers: From Passive to Active,” International Symposium on Antennas and Propagation, Busan, 2018. (EI，最佳论文入围奖)

3. Zhangjie Luo, L. Zhao, C.Xue, D. Sievenpiper, “An Electrically Tunable Absorbing Metasurface for SurfaceWaves and Plane Waves,” Proceedings of the Asia-Pacific Microwave Conference, New Delhi, 2016. (EI，最佳论文入围奖)

4. ZhangjieLuo, X. Ren, Q. Cheng, T. J. Cui, “ReconfigurableElectromagnetic Diode and Limiter via Digital Nonlinear Metasurface,” InternationalConference on Microwave and Millimeter Wave Technology, Nanjing, 2021. (邀请口头报告)(EI)

5. Zhangjie Luo, Y. Zhou, T. J. Cui, “Digitally-ControllableNonlinear Metasurface,” Proceedings of the Asia-Pacific MicrowaveConference, Singapore, 2019. (EI)

6. ZhangjieLuo,L. Zhao, et al, “Optimizing Effect ofthe High-Impedance Surface on Radiation Performances of the Vlasov Launcher,” Proceedings of the Asia-Pacific MicrowaveConference, 349-352, Kuala Lumpur, 2017. (EI)

论著章节：

S. Tian, L. Li, Zhangjie Luo, Q. Cheng, T. J. Cui, “Smart Antennas,” in Wiley 5G Ref, Edited by Rahim Tafazolli,Chin-Liang Wang and Periklis Chatzimisios, John Wiley & Sons Ltd., 2020.

1.  罗章杰，崔铁军，“一种多功能的非线性超表面”，授权发明专利号：ZL201910392456.X

2.  罗章杰，崔铁军，“一种非互易功能可定制的非线性超表面”，授权发明专利号：ZL201910830319.X

3.  薛长江，罗章杰等，“一种仅存TE0n模式的强场模式滤波器”，授权发明专利号：ZL 201711155968.1

4.  任学尧，罗章杰，崔铁军，“一种针对空间电磁波的非线性吸波超表面”，授权发明专利号：ZL202111171408.1

本科生教学：

《电路基础》，64课时，春季

《电路基础实验》，32学时，暑期学期

       面向电磁隐身、无线能量传输与利用以及新一代无线通信应用的：人工电磁超材料、非线性超表面、阻抗表面、微带天线及阵列以及射频电路理论与设计等。