个人简介
广东省杰出青年科学基金获得者
2011年在中科院物理所获得光学专业博士学位。2011.09-2017.03先后加入南洋理工大学和新加坡国立大学从事博士后研究工作。2017年3月加入暨南大学光子技术研究院。
秦飞博士长期从事微纳结构对光场的特殊调控,平面超透镜,及其在超分辨成像和激光加工等领域的应用基础研究。以第一和通讯作者在Science Advances, Nature Communications, Advanced Materials, Physical Review Letters, Optica等领域知名学术刊物上发表文章30余篇,文章总引用4500余次。主持科研项目10余项,授权国家发明专利3项。相关研究成果多次被Nature Physics, SPIE Newsroom,Sciencedaily等期刊媒体亮点报道。担任SCI期刊Frontiers of Physics(IF:6.6)青年编委。担任科技部重点研发计划会评专家,广东省科技厅重点项目会评专家,国家自然科学基金函评专家等。
代表性科研项目
1.国家自然科学基金面上项目 批准号:62475102 2025-2028 项目负责人
2.国家自然科学基金面上项目 批准号:62075085 2021-2024 项目负责人
3.国家自然科学基金青年项目 批准号:61705085 2018-2020 项目负责人
4.广东杰出青年科学基金 批准号:2020B1515020058 2019-2023 项目负责人
5.广州市基础研究项目 批准号:202002030258 2020-2022 项目负责人
6.国家重点研发计划项目课题 批准号:2023YFF0718102 2023-2026 子课题负责人
7.国家重点研发计划项目课题 批准号:2024YFA1209301 2024-2029 子课题负责人
代表性论文
1. Zhen Mou, Zijian Xie, Xingyuan Zeng, Jin Wu, Shichao Song, Sicong Wang*, Yaoyu Cao*, Fei Qin*, Xiangping Li*, Five-dimensional super-resolved optical storage by configured supercritical focusing beam,Optica,13,(2026)
2. Sicong Wang, Zhikai Zhou, Yongjie Zhu, Jialin Sun, Jiahui Mao, Minghui Wang, Shichao Song, Zi-lan Deng, Yaoyu Cao, Fei Qin*, Yunkun Wu*, Xifeng Ren*, Xiangping Li*, Unveiling Spin and Poynting Dual Textures of an Optical Skyrmionic Tube in Free Space, Physical Review Letters, 136,223803(2026)
3. Qianyi Cai, Zhiming Guo, Jianan Li, Yunyi Wang, Kun Zhang, Shichao Song*, Sicong Wang*, Xiangping Li, and Fei Qin*, "Multi-adaptive super-resolving pupil filter for sub-diffraction limited focusing and imaging," Optics Express 34, 16298-16308 (2026)
4. Ying Che, Peng Lu, Yang Li, Junhao Zeng, Mengxia Hu, Fei Qin*, Tianyue Zhang* and Xiangping Li* Dual quasi-BIC resonances synergized laser cooling in halide perovskite metasurface. Opto-Electronic Technology, 2, 250013 (2026)
5. Zeda Lin, Yiyin Zheng, Xu Hu, Jing Li, Sicong Wang*, Yaoyu Cao, Xiangping Li*, and Fei Qin*, "Centimeter-scale achromatic supercritical lens," Photonics Research, 13, 3220-3227 (2025)
6. Huawei Kai, Zeda Lin, Xu Hu, Shuai Feng*, Xiangping Li, and Fei Qin*,Theoretical study of dynamic focal field modulation via stretchable diatomic metalens. Optics Express, 33(12): 26771-26781(2025)
7. Zhen Mou, Qingshuai Yang, Fei Qin*, Yi Xu, Yaoyu Cao, XiangpingLi*,High-Fidelity Robust Decoding of Multiplexed Recording by Deep Learning, APL Photonics, 9,126103(2024)
8. Hui Duan, Minghui Wang, Xu Hu, Zhangyin Li, Meiling Jiang, Sicong Wang, Yaoyu Cao, Xiangping Li*, Fei Qin*, Aberration-compensated supercritical lens for sub-diffractive focusing within 20° field of view, Optics Letters, 48, 2523-2526(2023)
9. Jian Lei, Minghui Wang, Jin Wu, Hui Duan, Kun Zhang, Sicong Wang, Yaoyu Cao , Xiangping Li * and Fei Qin *,Elliptical Supercritical Lens for Shaping Sub-Diffractive Transverse Optical Needle,Nanomaterials, 13,242(2023)
10. Huapeng Ye*, Qian Sun, Zhenghao Guo, Yang Hou, Feng Wen, Dong Yuan,Fei Qin*, Guofu Zhou,Theoretical Realization of Single-Mode Fiber Integrated Metalens for Beam Collimating,Optics Express, 29,27521(2021)
11. Zhaoxia Zhang, Zhangyin Li, Jian Lei, Jin Wu, Kun Zhang, Sicong Wang, Yaoyu Cao, Fei Qin,* and Xiangping Li,Environmentally robust immersion supercritical lens with invariable sub-diffraction limited focal spot,Opt. Lett. 46(10),2296-2299(2021)
12. Fei Qin, Boqing Liu, Linwei Zhu, Jian Lei, Wei Fang, Dejiao Hu, Yi Zhu, Wendi Ma, Bowen Wang, Tan Shi, Yaoyu Cao, Bai-ou Guan, Chengwei Qiu, Yuerui Lu*, Xiangping Li*, “π-phase modulated monolayer supercritical lens”, Nature Communications, 12, 32 (2021)
13.Wei Fang, Jian Lei, Pengda Zhang, Fei Qin*, Meiling Jiang, Xufeng Zhu, Dejiao Hu, Yaoyu Cao*, Xiangping Li, “Multi-level phase supercritical lens patterned by synergetic optical lithography”, Nanophotonics,9,1469-1477,(2020).
14.Xufeng Zhu, Wei Fang, Jian Lei, Zhangyin Li, Fei Xie, Yaoyu Cao, Yaping Zhang,Fei Qin*, Xiangping Li, "Supercritical lens array in centimeter scale patterned with ultrafast maskless UV lithography", Optics Letters, 45, 1798-1801(2020).
15.Ziming Meng*, Chuan-Bin Chen, Fei Qin*, “Integratable Photonic Crystal Nanobeam All-optical Switching with Ultrafast Response and Ultralow Switching Energy”, J. Phys. D, 53,205105 (2020).
16.Tianyue Zhang*, Jian Xu, Zilan Deng, Dejiao Hu, Fei Qin* and Xiangping Li,“Unidirectional Enhanced Dipolar Emission with an Individual Dielectric Nanoantenna”,Nanomaterials, 9, 629(2019).
17. Michael Berry*, Nikolay Zheludev*, Yakir Aharonov, Fabrizio Colombo, Irene Sabadini, Daniele C. Struppa, Jeff Tollaksen, Edward T. F. Rogers, Fei Qin, Minghui Hong, Xiangang Luo, Roei Remez, Ady Arie, Jörg B Götte, Mark R Dennis, Alex M. H. Wong, George V. Eleftheriades, Yaniv Eliezer,Alon Bahabad, Gang Chen, Zhongquan Wen, Gaofeng Liang, Chenglong Hao, Cheng-Wei Qiu, Achim Kempf, Eytan Katzav and Moshe Schwartz, “Roadmap on superoscillations”, Journal of Optics, 21, 053002(2019) 被引234余次.
18.Ouyang Xueying#, Qin Fei#, Ji Ziheng, Zhang Tianyue, Xu Jian, Feng Ziwei, Yang shengyu, Cao Yaoyu, Shi Kebin, Jiang Lingxiang, Li Xiangping, “Saturation scattering competition for non-fluorescence single-wavelength super-resolution imaging”. APL Photonics, 3, 110801 (2018) (*共同贡献作者)。
19.Kun Huang, Fei Qin, Hong Liu, Huapeng Ye, Chengwei Qiu, Minghui Hong, Boris Luk’yanchuk, Jinghua Teng, “Planar Diffractive Lenses: Fundamentals, Functionalities and Applications”, Advanced Materials, 30, 170456(2018).被引191次.
20.Ziming Meng, Fei Qin*,“Realization of Fano Resonances in Metal-Insulator-Metal Plasmonic Bragg Gratings Side-Coupled with Plasmonic Nanocavities”, Plasmonics, 13, 2329-2336 (2018).
21.Fei Qin, Ming-Hui Hong, Yao-yu Cao, Xiang-ping Li, “Advances in the far-field sub-diffraction limit focusing and super-resolution imaging by planar metalenses”,Acta Physica Sinica, 66, 144206(2017).
22.Qin Fei, MingHui Hong. Breaking the diffraction limit in far field by planar metalens. Science China Physics, Mechanics & Astronomy 60, 044231(2017).
23.Fei Qin, Kun Huang, Jianfeng Wu, Jinghua Teng, Chengwei Qiu, Minghui Hong, “A Supercritical Lens Optical Label-free Microscopy: Subdiffraction Resolution and Ultra-long Working Distance”, Advanced Materials, 29, 1602721(2017).被引232余次.
24.Fei Qin, Lu Ding, Lei Zhang, Francesco Monticone, Chan Choy Chum, Jie Deng, Shengtao Mei, Ying Li, Jinghua Teng, Minghui Hong, Shuang Zhang, Andrea Alù and Cheng-Wei Qiu, “Hybrid bilayer plasmonic metasurface efficiently manipulates visible light”, Science Advances2, e1501168(2016). [Highlighted in Nature Physics 12,111(2016)]. 被引410余次.
25.Shengtao Mei*, Kun Huang*, Hong Liu*, Fei Qin*, Muhammad Q. Mehmood, Zhengji Xu, Minghui Hong, DaoHua Zhang, Jinghua Teng, Aaron Danner, and Cheng-Wei Qiu, “On-Chip Discrimination of Orbital Angular Momentum of Light with Plasmonic Nanoslits”, Nanoscale, 8, 2227 (2016). 。
26.Renren Deng, Fei Qin, Runfeng Chen, Wei Huang, Minghui Hong and Xiaogang Liu, “Temporal full-colour tuning through non-steady-state upconversion”, Nature Nanotech., 10,237(2015)。当期封面,被引用1050次
27. Fei Qin, Kun Huang, Jianfeng Wu, Jiao Jiao, Xiangang Luo, Chengwei Qiu and Minghui Hong, “Shaping a Subwavelength Needle with Ultra-long Focal Length by Focusing Azimuthally Polarized Light”, Sci. Rep. 5,09977 (2015).被引208余次.
28.Fei Qin, Zi-Ming Meng, Xiao-Lan Zhong, Ye Liu and Zhi-Yuan Li, “Fabrication of semiconductor-polymer compound nonlinear photonic crystal slab with highly uniform infiltration based on nanoimprint lithography technique”, Opt. Express 20, 13091 (2012).
29.Fei Qin, Zi-Ming Meng, and Zhi-Yuan Li, “Design of all-optical switching component based on pillar-array hybrid nonlinear photonic crystal cavity”, J. Opt. Soc. Am. B 29, 2314 (2012).
30.Fei Qin, Ye Liu, Zi-Ming Meng, and Zhi-Yuan Li, “Design of Kerr-effect sensitive microcavity in nonlinear photonic crystal slabs for all-optical switching” J. Appl. Phys. 108, 053108 (2010).
31.Fei Qin, Ye Liu and Zhi-Yuan Li, “Optical switching in hybrid semiconductor nonlinear photonic crystal slabs with Kerr materials”,J. Opt.12, 035209 (2010).
授权发明专利
1. 秦飞,谌亚强,胡旭,李向平,一种基于超表面光学元件的波长选择开关及其通信设备,国家发明专利,授权号:202510516428X.
2. 秦飞,牟真,李向平,一种基于深度学习的多维光存储解码方法,国家发明专利,授权号:202411056099.7.
3. 秦飞,雷健,李向平,平面衍射透镜、平面衍射透镜制造方法及光学成像系统,国家发明专利,授权号:202110818366X.