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入选江苏省组织部人才计划“双创博士”、东南大学“紫金学者”、“至善青年学者”,是中央高校优秀青年团队成员、IEEE P145 天线术语定义标准委员会委员、IEEE会员、中国电子学会会员、国家自然科学基金评审专家、教育部学位论文评审专家,担任国际著名期刊Scientific Reports编委、东南大学学报(自然科学版)青年编委。
在四川大学获得学士学位和博士学位,于2012年至2014年公派至美国加州大学圣迭戈分校开展博士联培,师从Dan Sievenpiper(IEEE Fellow);于2018年至2020年在东南大学毫米波全国重点实验室任博士后研究员,师从崔铁军院士;2020年留校任教至今。
主持国家自然科学基金面上项目和青年项目、江苏省自然科学基金面上项目、多项横向技装项目及科技委项目等,取得了诸多国际领先成果,获得相关单位及资深专家的高度评价。在Nature Electronics、Nature Communications、Advanced Functional Materials、Advanced Science、IEEE Transactions on Antennas and Propagation等顶级学术期刊和学术会议发表论文70余篇,多次受邀在国内外学术会议上汇报成果,并获得一系列学术奖励。
隶属崔铁军院士团队,研究方向:瞄准下一代无线通信、微波能量智能屏蔽、微波能量回收与利用、雷达隐身等应用的新型微波射频器件、天线及系统。
欢迎热爱科研、善于思考、具有自驱力的同学加入研究团队!我将根据每位同学的科研兴趣、个人特点和职业规划,量身定制研究课题,并提供一对一的悉心指导,助力同学的学术成长与职业发展。期待在科研道路上共同探索、突破创新!
学术著作:
[1] Zhangjie Luo and T. J. Cui, “Information Metamaterials and Metasurfaces,” in Electromagnetic Metamaterials and Metasurfaces: From Theory To Applications, 2024. Springer出版社
[2] S. Tian, L. Li, Zhangjie Luo, Q. Cheng, T. J. Cui, “Smart Antennas,” in Wiley 5G Ref, John Wiley & Sons Ltd., 2020. Wiley出版社
代表性期刊论文:(*代表通讯作者)
[1] S. R. Wang, Zhangjie Luo*, Q. Cheng*, T. J. Cui*, “Simplified radar architecture based on information metasurface,” Nature Communications, accepted. (一区Top,影响因子14.7)
[2] J. Liang, L. Zhang, Zhangjie Luo*, Q. Cheng*, T. J. Cui*, “A filtering reconfigurable intelligent surface for interference-free wireless communications,” Nature Communications, 15, 3838, 2024. (一区Top,影响因子14.7)
[3] T. Li, Zhangjie Luo*, J. Tai, H. F. Ma, W. X. Jiang, Q. Cheng*, and T. J. Cui*, “Nonlinear Information Metasurface for Second-Harmonic Generation, Manipulation, and Backscatter Communication,” ACS Applied Materials & Interfaces, 17 (19), 28752-28763, 2025. (一区Top,影响因子8.5)
[4] Zhangjie Luo, Z. Zhang, Q. Cheng*, T. J. Cui*, “Fully Breaking Entanglement of Multiple Harmonics for Space- and Frequency-Division Multiplexing Wireless Applications via Space-Time-Coding Metasurface,” Advanced Science, 11(34), 2404558, 2024. (一区Top,影响因子14.3)
[5] Zhangjie Luo, X. Ren, L. Zhou, Y. Chen, Q. Cheng, H. F. Ma, T. J. Cui*, “A High-Performance Nonlinear Metasurface for Spatial-Wave Absorption,” Advanced Functional Materials, 32(16), 202109544, 2022. (一区Top,影响因子18.5)
[6] Zhangjie Luo, M. Z. Chen, Z. X. Wang, T. J. Cui*, “Digital Nonlinear Metasurface with Customizable Nonreciprocity,” Advanced Functional Materials, 29(49), 1906635, 2019. (中信所“表现不俗”论文) (一区Top,影响因子18.5)
[7] C. Liu, Q. Ma, Zhangjie Luo, et al., “A programmable diffractive deep neural network based on a digital-coding metasurface array,” Nature Electronics, 5, 113–122, 2022. (一区Top,影响因子34.5)
[8] Zhangjie Luo, X. Shan, T. J. Cui*, et. al., “Active Metasurface Absorber for Intensity-Dependent Surface-Wave Shielding,” IEEE Transactions on Antennas and Propagation, 71(7), 5795–5804, 2023. (一区Top,影响因子4.6)
[9] Zhangjie Luo, Yu Chen, J. Tai, et al., “A Rectifying Circuit with High-Efficiency DC and Harmonic Generations,” IEEE Trans. on Circuits Syst. II, Exp. Briefs, 71(8), 3660–3664, 2024 (二区Top,影响因子4) (编辑推荐论文)
[10]R. Yang, Zhangjie Luo*, J. C. Liang, J. Y. Dai*, Q. Cheng*, T. J. Cui*, “Reconfigurable Metasurface with Multiple Functionalities of Frequency-Selective Rasorber, Frequency-Selective Surface, Absorber, and Reflector,” Advanced Materials Technologies, 2400966, 2024. (一区,影响因子6.4)
[11] Zhangjie Luo, L. Hong, et al., “Compact Design of a Transmission-Type Reconfigurable Intelligent Surface System for Beam-Steering Applications,” Physica Status Solidi (RRL), 2300176, 2023.
[12] Zhangjie Luo, X, Ren, Q. Wang, Q. Cheng, T. J. Cui*, “Anisotropic and Nonlinear metasurface for Multiple Functions,” Science China: Information Sciences, 64, 192301, 2021. (一区,影响因子7.3)
[13] Zhangjie Luo, Q. Wang, X. G. Zhang, T. J. Cui*, et al., “Intensity-Dependent Metasurface with Digitally Reconfigurable Distribution of Nonlinearity,” Advanced Optical Materials, 7(19), 1900792, 2019. (正封面论文,中信所“表现不俗”论文)(一区,影响因子8)
[14] 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.
[15] Zhangjie Luo, X. Chen, J. Long, et al., “Self-Focusing of Electromagnetic Surface Waves on a Nonlinear Impedance Surface,” Applied Physics Letters, 106, 211102, 2015.
[16] Zhangjie Luo, X. Chen, J. Long, et al., “Nonlinear Power-Dependent Impedance Surface,” IEEE Trans. on Antennas and Propagation, 63(4), 1736–1745, 2015.
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
《电路基础》,64课时,本科必修专业基础课
《科技写作》(全英文) 16学时 研究生专业课
基于电磁超材料的新型微波射频器件及系统,应用方向包括:下一代无线通信、微波能量回收与利用、微波能量防护、雷达隐身等。
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