张庆，电子科技大学物理学院，研究员，博士研究生导师，四川省特聘专家，“天府峨眉计划”青年人才项目，电子科技大学“学术新人奖”、“校百人”计划入选者。2013年本科毕业于电子科技大学；2016年硕士毕业于中科院上海光机所；2019年博士毕业于中国工程物理研究院；2019-2021年于新加坡国立大学从事博士后研究（合作导师：Prof.Cheng-Wei Qiu）。研究方向包括：片上纳米光电子学物理及器件、光学超表面、纳米尺度光与物质相互作用研究等，目前在Nature, Nature Photonics, Nature Review Physics, Chemical Review, Nature Communications, Science Advances, Light Science & Applications, NanoLetters等国际权威学术期刊上发表学术论文70余篇，谷歌学术引用3500余次，H-因子25。先后主持国家自然科学基金青年和面上项目，参与国家重点研发计划课题（排名第2），其它省部级科研项目12项，申请发明专利10 项。被Journal of Optics 评选为“2024 光学学术新星”。

研究方向：

片上极化激元纳米光电子学：伴随着硅纳米工艺的极限和“摩尔定律”时代的终结，具有原子层厚度的二维材料片上光电器件成为前沿研究热点。片上传播的二维材料范德华（vdW）极化激元具有重要研究价值，在实现从可见光到太赫兹光谱范围的纳米尺度光场调控表现出巨大潜力，团队首次在Nature杂志发表综述论文并首次提出“界面极化激元光学”概念。该领域聚焦前沿的纳米光子学技术和vdW极化激元的结合，在低维材料界面操控极化激元传播，研究成果有望实现包括纳米成像、光学传感、片上光子电路的新途径，以及未来几年可能出现的许多其他应用。

纳米光子学器件、纳米尺度光与物质相互作用：（1）主要研究超材料、超表面相关的纳米尺度光场调控，包括超透镜、全息成像、轨道角动量复用超表面、衍射神经网络等。（2）拓扑光子晶体，包括拓扑谐振腔、连续态束缚态谐振腔、拓扑边界态等。（3）Moiré工程技术，包括低维材料极化激元的光学魔角，以及多层光子晶体结构的拓扑平带等。（4）光子轨道角动的新颖操控及探测。

(Selected Published Paper)：https://scholar.google.com/citations?user=anc8m2IAAAAJ&hl=zh-CN

1. M.Gao, Q. Zhang,* , “Twist-angle-engineered nonlinear optics in 3R-MoS2/BIC-metasurface heterostructures”, Advanced Photonics 8, 026012 (2026)

2. M Gao, Z Wang, J Yan, Z Ma, L Peng, Y Chen, Q. Zhang,*,  Y Yang, "Tunable second harmonic generation by degenerate quasi-BIC metasurfaces”, ACS Photonics 13, 1047 (2026)

3. Y. Bai, J. Yan, Q. Zhang,* , “Direct observation of unidirectional exciton polaritons in layered van der Waals semiconductors”, Advanced Materials 37, 2501669 (2025)

4. H. Lv, Q. Zhang,* J. Liu,…, C.-W. Qiu, Q. Ou, and Y. Yang, “Tailoring phonon polaritons with a single-layer photonics-empowered polaritonic crystal”,Nano Letters  25, 4946 (2024)

5. Y. Bai, Q. Zhang*, T. Zhang, H. Lv, J. Yan, J. Wang, S. Fu, G. Hu, C.-W. Qiu, Y. Yang, “Airy-Like Hyperbolic Shear Polaritons in High Symmetry van der Waals Crystals”, Laser & Photonics Reviews, 2400041, (2024).

6. L. Peng, J. Yao, Y. Bai, Y. Sun, J. Zeng, Y. Ren, J. Xie, Z. Hu, Q. Zhang*, Y. Yang, “Mind-controlled optical manipulation”, ACS Photonics 11, 1213 (2024).

7. T. Zhao,…, Q. Zhang et al., “Ultrathin MXene assemblies approach the intrinsic absorption limit in the 0.5-10 THz band”, Nature Photonics 17, 622 (2023). 

8. Z. Wu, …, Q. Zhang*, and Z. Hu, “Nanophotonic catalytic combustion enlightens mid-infrared light source.” Nano Research 16, 11564 (2023). 

9. C. yang, W. Du, Q. Zhang, O. ávalos-Ovando, J. Wu, Q. Xu, N. Liu, A. O. Govorov, Q. Xiong, and C.W. Qiu, "Multidimensional nanoscopic chiroptics", Nature Review Physics 4, 113 (2022). 

10. C. Zheng, R. E. Simpson, A. Nemati, Q. Zhang, and C. W. Qiu"Enabling Active Nanotechnologies by Phase Transition: From Electronics, Photonics to Thermotics." Chemical Reviews 3, 122 (2022) 

11. Q. Zhang, Q. Ou, G. Si, G. Hu, S. Dong, Y. Yang, A. Alù, R. Hillenbrand, and C.-W. Qiu, “Unidirectionally excited phonon polaritons in high-symmetry orthorhombic crystals”, Science Advances 8, eabn9774 (2022). 

12. Q. Zhang, G. Hu, W. Ma, P. Li, A. Krasnok, R. Hillenbrand, A. Alù, and C. W. Qiu, “Interface nano-optics with van der Waals polaritons ” Nature 597, 187 (2021).

13. Q. Zhang, Q. Ou, G. Hu, J. Liu, Z. Dai, Q. Bao, and C. W. Qiu, "Hybridized hyperbolic surface phonon polaritons at α-MoO3 and polar dielectric interfaces”, Nano Letters 21, 3112 (2021).

14. J. Ni, S. Liu, G. Hu, Y. Hu, Z. Lao, J. Li, Q. Zhang, D. Wu, S. Dong, J. Chu, C.-W. Qiu“Giant helical dichroism of single chiral nanostructures with photonic orbital angular momentum”, ACS Nano 15, 2893 (2021).

15. G. Hu, Q. Ou, G. Si, Y. Wu, J. Wu, Z. Dai, Q. Zhang, Q. Bao, C. W. Qiu, and A. Alù, “Observation of topological polaritons and photonic magic angles in twisted van der Waals bi-layers”, Nature 582, 209 (2020).

16. H. Zhang, B. Abhiraman, Q. Zhang, J. Miao, M. W. Knight, A. R. Davoyan and D. Jariwala, “Hybrid exciton-plasmon-polaritons in van der Waals semiconductor gratings”, Nature Commun. 11, 3553 (2020).

17. Z. Dai, G. Hu, Q. Ou, Q. Zhang, A. Alù, P. A. González, C.W. Qiu and Q. Bao, “Edge-oriented and steerable hyperbolic polaritons in anisotropic van der Waals nanocavities”, Nature Commun. 11, 6086 (2020).

18. Q. Zhang, J. Ni, and C.-W. Qiu, “Vortex 4.0 on-chip”, Light Science & Applications 9, 103, (2020).

19. Q. Zhang, S. Dong, G. Cao, and G. Hu, “Exciton polaritons in mixed-dimensional transition metal dichalcogenides heterostructures”, Optics Letters 45, 14140 (2020). 

20. S. Dong, Q. Zhang*, G. Hu, Y. Li, L. Zhou and C.-W. Qiu, “On-chip router for trans-dimensional plasmons”, Nanophotonics, 20200078 (2020).

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