代表性研究成果

【项目】

1. 国家自然科学基金委员会, 联合基金项目, U21A20140, 基于超表面的AR显示元件与系统设计及其制造基础研究, 2022-01-01 至 2025-12-31, 260万元, 在研, 主持；

2. 科技部, 重点研发计划青年科学家项目, 2021YFA1401200, 面向多维度光通信的纳米光源及智能超表面物态调控研究, 2021-12 至 2026-11, 500万元, 在研, 主持；

3. 科技委, 基础加强XXXXXX, 2021-XXXX-JJ-0833, 超微型XXXXXXXXXX, 2021-10 至 2024-09, 200万元, 在研, 主持；

4. 北京市教育委员会, 北京市卓越青年科学家项目, BJJWZYJH01201910007022, 超颖表面物理机制及功能应用, 2019-01 至 2023-12, 1650万元, 结题, 主持；

5. 国家自然科学基金委员会, 国际(地区)合作与交流项目, 61861136010, 基于动态多功能及非线性应用的光学超颖表面, 2019-01-01 至 2021-12-31, 133万元, 结题, 主持；

所有研究成果

2026年

1. Cui Y., Zhang X., Zhao R., Zhang S., Ma A., Geng G., Li J., Sun H., Wang Y., Huang L.*. Spatially Tailored 3D Cylindrical Vector Beams Array Generation Based on Metasurface. Laser & Photonics Review e03145 (2026).

2. Zhang X., Cui Y., Chen Y., Li X., Li J., Shi W., Chen J., Dong Z., Wang Y., Qiu C.*, Zhang S.*, Huang L.*. Full-parameter-modulated three-dimensional vectorial generalized vortex array. Light: Science & Applications 15, 7 (2026).

3. Huang Z.#, Liu Y.#, Zhang N.#*, Zhang Z., Liao Q., He C., Liu S., Liu Y., Wang H., Qiao X., Yang J. K. W., Zhang Y.*, Huang L.*, Wang Y. Light: Science & Applications 15, 101 (2026).

4. Zhang S.#, Gao L.#, Zhao Y., Wang Y., Wang B., Li J., Duan J., Cheng D., Qiu C. W., Wang Y., Yang T.*, Huang, L.*. Integrated metasurface-freeform system enabled multi-focal planes augmented reality display. Opto-Electron Science 5, 250031 (2026).

5. Wang T.#, Zhang N.#*, Huang H., An Y., Dai Y., Li Y., Yang N., Yang C., Zhou X., Zhu Y., Ma Y., Huang L.*, Wang Y., Liu Y.*, Yan Z.* Magneto-photoelectrochemical 2D heterojunction platform for biosensing detection. Sensors and Actuators B: Chemical 453, 139478 (2026).

6. Zheng X.#, Guan Z.#, Zhang N.#*, Zhang Z., Li Y., Tam C., He H., Ma Y., Xu Y., Li Z., Hu Y.*, Huang L.*, Wei J.*, Luo Z., Wang Y. Miniaturized Self‐Powered Perovskite Spectrometer. Small e12206, (2026).

2025年

1. Chong M. Z.#, He C.#, Feng P., Zhang Z. K., Geng G., Li J., Xia M. Y.*, Huang L.*. Janus meta-imager: asymmetric image transmission and transformation enabled by diffractive neural networks. PhotoniX 6, 60 (2025).

2. Li D.#, Liao Q.#, Xu B., Zentgraf T., Narvaez Castaneda E., Zhou Y., Qin K., Xu Z.*, Shen H.*, Huang L.*. In vacuum metasurface for optical microtrap array. Optics Express 33, 51085-51093 (2025).

3. Liao Q.#, Jing X.#, Xue J., Li N., Yang Y., You R., Wang Y., Su Z.*, Huang L.*. Non-invasive 3D imaging of hidden objects based on a short-wave infrared BIC metasurface. Photonics Research 13, A31 (2025).

4. Zhao R.#, Tian C.#, Zhou C., Geng G., He H., Li P., Li J., Wang Y., Huang L.*. Simultaneous spectrum and polarization detection based on a single metasurface. ACS Photonics 12, 5283 (2025).

5. Dong B.#, Zhu S.#, Guo G., Wu T., Lu X., Huang W., Ma H., Xu Q., Han J., Zhang S.*, Wang Y.*, Zhang X.*, Huang L.*. Switchable Pancharatnam–Berry phases in heterogeneously integrated THz metasurfaces. Advanced Materials 37(6), 2417183(2025).

6. Jing X.#, Liao Q.#, Liang M., Wang B., Li J., Wang Y., You R.*, Huang L.*. Three-dimensional measurement enabled by single-layer all-in-one transmitting-receipting optical metasystem. Opto-Electronic Advances. 8(6), 240299 (2025).

7. He H., Lai F., Zhang Y., Zhang X., Tian C., Li X., Wang Y., Xiao S.*, Huang L.*. Spectro-polarimetric detection enabled by multidimensional metasurface with quasi-bound states in the continuum. Opto-Electronic Advances 200015 (2025).

8. Zhou C, Muhammad N, Zhao R, Chen Y, Geng G, Li J, Li X, Li X.*, Wang Y.*, Huang L.*. Metasurface enabled broadband, high numerical aperture Laplace differentiator under multiple polarization illumination. PhotoniX 6, 10. (2025).

9. Zhou C., Zhao R., Li P., Zhang Y., Chen Y., Geng G., Li J., Li X., Wang Y.*, Huang L.*. Dual-polarized broadband Laplace differentiator via quasi-bound states in the continuum empowered by nonlocal metasurfaces. Advanced Functional Materials 35(37), 2426095 (2025)

10. Zhang S., Li P., Zhang X., Wei Q., Li X., Wang B., Li J., Wang Y., Huang L.*. Vectorial Wavefront Manipulations Based on Misalignment Resilient Cascaded Metasurfaces. Laser & Photonics Reviews 19(17), 2500309 (2025).

11. Xiong H., Zhao R., Tian C., Li X., Wang B., Li J., Huang L.*. Metasurface‐Enabled Dual‐Channel Single‐Pixel Polarimetric Imaging. Laser & Photonics Review 20(3), e01878 (2025).

12. Xiong H., Zhang X., Li P., Zhao R., Li X., Geng G., Li J., Wang Y., Huang L.*. 3D Multiview Holographic Display with Wide Field of View Based on Metasurface. Advanced Optical Materials 13(5), 2402504 (2025).

13. Chen H., Li N., Zhao Y., Ou H., Wang Y., Jing X., Zhang N., Su Z.*, Huang L.*. Maximizing the chirality of bound states in the continuum by inverse design. Photonics Research 13(8), 2054-2064 (2025).

14. Zhou H., Zhao C., He C., Jiang Q., Wang H., Zhao R., Man T., Wan Y.,* Geng G.,* Huang L.*. Multi-fold Phase Metasurface Holography Based on Frequency and Hybrid Decoupling Polarizations. Advanced Optical Materials 13(6), 2402303 (2025).

15. Li N., Chen H., Zhao Y., Wang Y., Su Z.*, Liu Y., Huang L.*. Ultrasensitive metasurface sensor based on quasi-bound states in the continuum. Nanophotonics 14(4), 485-494 (2025).

16. Zhou C., Wang Y., Huang L.*. All-optical analog differential operation and information processing empowered by meta-devices. Nanophotonics 14 (8): 1021-1044 (2025).

17. Muhammad N., Begum A., Su Z., Huang L.*. Second harmonic generation from bound-state in the continuum-hosted few-layers van der Waals metasurface. Nanophotonics 14(2), 263-270 (2025).

18. Liao Q., Liu Y., Muhammad N., Wang Y., Li X.*., Huang L.*. Fiber tip integrated metalens for polarization-dependent dual-focus. Optics Express 33(7), 16381-16388. (2025).

19. Wu H., Li J., Yang Z., Huang L.*. Research Progress on Three-Dimensional Imaging Using Metasurfaces (Invited). Laser and Optoelectronics Progress 62 (10), 1000001 (2025).

2024年

[1] Zhou H, Zhao C, He C, et al.Optical computing metasurfaces: applications and advances[J].Nanophotonics,2024, 13 (4): 419-441.

[2] Zhou C, Chen Y, Li Y, et al.Laplace Differentiator Based on Metasurface with Toroidal Dipole Resonance[J].Advanced Functional Materials,2024, 34 (19).

[3] Zhao R, Huang L.High efficiency and dynamic modulation of nonlinear metasurfaces[J].Light: Science and Applications,2024, 13 (1).

[4] Zhang X, Zhu S, Li P, et al.Alias Transformation of Structured Beam and Holography in Real and Fourier Space Based on Dielectric Metasurface[J].Laser and Photonics Reviews,2024, 18 (5).

[5] Zhang X, Li X, Zhang S, et al.Light Field Transformation of Metasurface Based on Arbitrary Jones Matrix[J].Laser and Photonics Reviews,2024, 18 (12).

[6] Zhang X, Li T, Zhou H, et al.Switchable Diffraction Pattern Based on Cascaded Metasurfaces[J].Laser and Photonics Reviews,2024, 18 (5).

[7] Zhang X, Ji X, Li X, et al.Spatial Varying Vectorial Holography and Polarization Encryption Based on Birefringent Metasurface[J].Advanced Functional Materials,2024, 34 (41).

[8] Zhang N, Huang Z, Zhang Z, et al.Advances of Optical Computing and Optoelectronic Intelligent Computing[J].Zhongguo Jiguang/Chinese Journal of Lasers,2024, 51 (18).

[9] Zeng H, Lu P, Li X, et al.Multiuser computational imaging encryption and authentication with OFDM-assisted key management[J].Advanced Photonics Nexus,2024, 3 (5).

[10] Yin Y, Jiang Q, Wang H, et al.Multi-Dimensional Multiplexed Metasurface Holography by Inverse Design[J].Advanced Materials,2024, 36 (21).

[11] Yao E, Su Z, Bi Y, et al.Tunable quasi-bound states in the continuum in magneto-optical metasurfaces[J].Journal of Physics D: Applied Physics,2024, 57 (37).

[12] Yang J, Zhao R, Li Y, et al.Transformation of Longitudinally Customizable Curved Vector Vortex Beams Using Dielectric Metasurface[J].Laser and Photonics Reviews,2024, 18 (10).

[13] Xu C, Zhao R, Zhang X, et al.Quasicrystal metasurface for dual functionality of holography and diffraction generation[J].eLight,2024, 4 (1).

[14] Wang Z, Xiang Z, Li X, et al.Dual-control of incubation effect for efficiently fabricating surface structures in fused silica[J].Nanophotonics,2024, 13 (21): 4057-4065.

[15] Su Z, Yang Y, Xiong B, et al.Planar Chiral Metasurface Based on Coupling Quasi-Bound States in the Continuum[J].Advanced Optical Materials,2024, 12 (16).

[16] Shao Y, Zhaoxian S U, Haoyang H E, et al.Multispectral imaging through metasurface with quasi-bound states in the continuum[J].Optics Express,2024, 32 (13): 23268-23279.

[17] Muhammad N, Su Z, Jiang Q, et al.Radiationless optical modes in metasurfaces: recent progress and applications[J].Light: Science and Applications,2024, 13 (1).

[18] Liu C, Wang H, Zhao R, et al.Multi-plane vectorial holography based on a height tunable metasurface fabricated by femtosecond laser direct writing[J].Photonics Research,2024, 12 (10): 2158-2165.

[19] Li Y, Yang J, Zhao R, et al.Ultracompact polarization multiplexing meta-combiner for augmented reality display[J].Optics Express,2024, 32 (4): 6266-6276.

[20] Li X, Xu Z, Yang J, et al.Advances in Phase Imaging Based on Metasurfaces[J].Laser and Optoelectronics Progress,2024, 61 (2).

[21] Li T, Li L, Jiang L, et al.Reconfigurable Hologram Response to Liquid via the Femtosecond Laser Direct Writing of 3D Micropillars[J].Advanced Optical Materials,2024, 12 (29).

[22] Li T, Jiang L, Wang Z, et al.High-Quality Micropattern Printing by Complex-Amplitude Modulation Holographic Femtosecond Laser[J].Advanced Optical Materials,2024, 12 (23).

[23] Li C, Li X, He C, et al.Metasurface-Based Structured Light Sensing Without Triangulation[J].Advanced Optical Materials,2024, 12 (7).

[24] He H, Zhang Y, Shao Y, et al.Meta-Attention Network Based Spectral Reconstruction with Snapshot Near-Infrared Metasurface[J].Advanced Materials,2024, 36 (23).

[25] He C, Zhao D, Fan F, et al.Pluggable multitask diffractive neural networks based on cascaded metasurfaces[J].Opto-Electronic Advances,2024, 7 (2).

[26] Cui T J, Zhang S, Alù A, et al.Roadmap on electromagnetic metamaterials and metasurfaces[J].JPhys Photonics,2024, 6 (3).

[27] Chen Y, Xu Z, Zhao R, et al.Multi-Dimensional and High-Capacity Metasurface Holography and Light Modulation[J].Guangxue Xuebao/Acta Optica Sinica,2024, 44 (2).

[28] Chen Y, Liang Q, Sun H, et al.Kissing-loop nano-kirigami structures with asymmetric transmission and anomalous reflection[J].Light: Advanced Manufacturing,2024, 5 (4).

[29] Bi Y, Huang L, Li T, et al.Active metasurface via magnetic control for tri-channel polarization multiplexing holography[J].Chinese Optics Letters,2024, 22 (4).

2023年

[1] Zhu S, Jiang Q, Wang Y, et al.Nonmechanical varifocal metalens using nematic liquid crystal[J].Nanophotonics,2023, 12 (6): 1169-1176.

[2] Zhu S, Dong B, Guo G, et al.Terahertz Metasurfaces for Thermally Controlled Optical Encryption[J].Laser and Photonics Reviews,2023, 17 (10).

[3] Zhou H, Liao K, Su Z, et al.Tunable on-chip mode converter enabled by inverse design[J].Nanophotonics,2023, 12 (6): 1105-1114.

[4] Zhao R, Wei Q, Li Y, et al.Stereo Jones Matrix Holography with Longitudinal Polarization Transformation[J].Laser and Photonics Reviews,2023, 17 (8).

[5] Zhao R, Li X, Geng G, et al.Encoding arbitrary phase profiles to 2D diffraction orders with controllable polarization states[J].Nanophotonics,2023, 12 (1): 155-163.

[6] Zhang Y, Su Z, Wang Y, et al.Non-Hermitian higher-order topological corner states on the extended kagome lattice[J].Applied Physics Letters,2023, 123 (22).

[7] Zhang S, Zhou H, Liu B, et al.Recent Advances and Prospects of Optical Metasurfaces[J].ACS Photonics,2023, 10 (7): 2045-2063.

[8] Yang S, Wei Q, Zhao R, et al.Realizing depth measurement and edge detection based on a single metasurface[J].Nanophotonics,2023, 12 (16): 3385-3393.

[9] Yang S, Huang L, Wang Y.Holography and cloaking based on polarization multiplexing conformal meta surfaces[J].Guangxue Jishu/Optical Technique,2023, 49 (5): 522-527.

[10] Yang J, Zhao R, Li Y, et al.Generation of the Bessel Beam of Longitudinally Varied Polarization with Dielectric Metasurfaces[J].Advanced Optical Materials,2023, 11 (10).

[11] Wang H, Qin Z, Zhou H, et al.Origami–Kirigami Arts: Achieving Circular Dichroism by Flexible Meta-Film for Electromagnetic Information Encryption[J].Laser and Photonics Reviews,2023, 17 (2).

[12] Liu Y, Liao Q, Zhang N, et al.Raman Spectroscopy Fiber Probe Based on Metalens and Multimode Fiber for Malachite Green Determination[J].IEEE Sensors Journal,2023, 23 (15): 16866-16872.

[13] Liu Y, Liao Q, Wang Y, et al.Ultracompact metalens-based beam-focusing fiber-optic device with a large numerical aperture[J].Optics Letters,2023, 48 (7): 1742-1745.

[14] Liu B, Geromel R, Su Z, et al.Nonlinear Dielectric Geometric-Phase Metasurface with Simultaneous Structure and Lattice Symmetry Design[J].ACS Photonics,2023, 10 (12): 4357-4366.

[15] Li X, Zhang S, Zhang X, et al.Multi-Dimensional Light Field Manipulation by Metasurfaces and Holographic Display Technology[J].Guangxue Xuebao/Acta Optica Sinica,2023, 43 (15).

[16] Li X, Chen Q, Zhang X, et al.Time-sequential color code division multiplexing holographic display with metasurface[J].Opto-Electronic Advances,2023, 6 (8).

[17] Li T, Liao K, Zhou H, et al.On-Chip Metaline for Multiport Beam Splitting[J].Advanced Optical Materials,2023, 11 (7).

[18] Li T, Chen Y, Wang Y, et al.Three-dimensional dipole momentum analog based on L-shape metasurface[J].Applied Physics Letters,2023, 122 (14).

[19] Jing X, Wang Y, Huang L.Metasurface-Based Three-Dimensional Imaging Technique[J].Laser and Optoelectronics Progress,2023, 60 (8).

[20] Jing X, Li Y, Li J, et al.Active 3D positioning and imaging modulated by single fringe projection with compact metasurface device[J].Nanophotonics,2023, 12 (10): 1923-1930.

[21] Jiang Q, Liu J, Li J, et al.Multiwavelength Achromatic Metalens in Visible by Inverse Design[J].Advanced Optical Materials,2023, 11 (15).

[22] Huang L, Chen Q, Yin Y, et al.High-resolution metalens imaging based on SRResNet and point diffusion function design[J].Guangxue Jishu/Optical Technique,2023, 49 (4): 385-389and411.

2022年

[1] Zhou H, Li X, Xu Z, et al.Correlated triple hybrid amplitude and phase holographic encryption based on a metasurface[J].Photonics Research,2022, 10 (3): 678-686.

[2] Zhou H, Li X, Wang H, et al.Ultra-dense moving cascaded metasurface holography by using a physics-driven neural network[J].Optics Express,2022, 30 (14): 24285-24294.

[3] Zhou H, Li X, Ullah N, et al.Single-shot phase retrieval based on anisotropic metasurface[J].Applied Physics Letters,2022, 120 (16).

[4] Zheng R, Pan R, Geng G, et al.Active multiband varifocal metalenses based on orbital angular momentum division multiplexing[J].Nature Communications,2022, 13 (1).

[5] Zhao R, Geng G, Wei Q, et al.Controllable Polarization and Diffraction Modulated Multi-Functionality Based on Metasurface[J].Advanced Optical Materials,2022, 10 (8).

[6] Zhang X, Li X, Zhou H, et al.Multifocal Plane Display Based on Dual Polarity Stereoscopic Metasurface[J].Advanced Functional Materials,2022, 32 (52).

[7] Zhang X, Huang L, Zhao R, et al.Basis function approach for diffractive pattern generation with Dammann vortex metasurfaces[J].Science Advances,2022, 8 (40).

[8] Zhang X, Huang L, Zhao R, et al.Multiplexed Generation of Generalized Vortex Beams with On-Demand Intensity Profiles Based on Metasurfaces[J].Laser and Photonics Reviews,2022, 16 (3).

[9] Zhang S, Huang L, Geng G, et al.Full-Stokes polarization transformations and time sequence metasurface holographic display[J].Photonics Research,2022, 10 (4): 1031-1038.

[10] Yang J Z, Zhao R Z, Meng Z, et al.Quantum metasurface holography[J].Photonics Research,2022, 10 (11): 2607-2613.

[11] Yan J, Wei Q, Liu Y, et al.Single Pixel Imaging Key for Holographic Encryption Based on Spatial Multiplexing Metasurface[J].Small,2022, 18 (35).

[12] Yan J, Wang Y, Liu Y, et al.Single pixel imaging based on large capacity spatial multiplexing metasurface[J].Nanophotonics,2022, 11 (13): 3071-3080.

[13] Wei Q, Huang L, Zhao R, et al.Rotational Multiplexing Method Based on Cascaded Metasurface Holography[J].Advanced Optical Materials,2022, 10 (8).

[14] Wang Z, Jiang L, Li X, et al.High efficiency and scalable fabrication of fresnel zone plates using holographic femtosecond pulses[J].Nanophotonics,2022, 11 (13): 3081-3091.

[15] Wang T, Yang Z, Feng H, et al.Fabrication and Study of Flexible Visibly Transparent Electrodes Using Silver Nanowires （Invited）[J].Guangzi Xuebao/Acta Photonica Sinica,2022, 51 (9).

[16] Wang H, Zhou H, Li T, et al.Tailoring circular dichroism via the Born-Kuhn model for meta-holograms[J].Science China: Physics, Mechanics and Astronomy,2022, 65 (10).

[17] Wang H, Wan W, Huang L, et al.Tailoring the Excited and Cutoff States of Spoof Surface Plasmon Polaritons for Full-Space Quadruple Functionalities[J].ACS Applied Materials and Interfaces,2022, 14 (4): 6230-6238.

[18] Wang H, Qin Z, Huang L, et al.Metasurface with dynamic chiral meta-atoms for spin multiplexing hologram and low observable reflection[J].PhotoniX,2022, 3 (1).

[19] Ullah N, Zhao R, Huang L.Recent Advancement in Optical Metasurface: Fundament to Application[J].Micromachines,2022, 13 (7).

[20] Ullah N, Huang L, Amirzada M R, et al.Investigation of Leakage Current in Micro M-IM Structure Using Multilayer High-K Dielectric Materials with COMSOL Multiphysics[J].Elektronika ir Elektrotechnika,2022, 28 (2): 72-77.

[21] Su Z, Gao W, Liu B, et al.Three-dimensional Dirac semimetal metamaterial enabled by negative couplings[J].New Journal of Physics,2022, 24 (3).

[22] Reineke Matsudo B, Sain B, Carletti L, et al.Efficient Frequency Conversion with Geometric Phase Control in Optical Metasurfaces[J].Advanced Science,2022, 9 (12).

[23] Liu Y, Liao Q, Huang L.Multifunctional lab on fiber tips based on metasurface[J].Guangxue Jingmi Gongcheng/Optics and Precision Engineering,2022, 30 (15): 1802-1814.

[24] Liu Y, Li X, Chen Y, et al.Imaging-based optical barcoding for relative humidity sensing based on meta-tip[J].Nanophotonics,2022, 11 (1): 111-118.

[25] Liu Y, Chen Y, Zhou S, et al.Fiber-optic meta-tip with multi-sensitivity resonance dips for humidity sensing[J].Sensors and Actuators B: Chemical,2022, 352.

[26] Liu B, Zhou Z, Wang Y, et al.Experimental verification of the acoustic geometric phase[J].Applied Physics Letters,2022, 120 (21).

[27] Liu B, Wei Q, Su Z, et al.Multifunctional acoustic holography based on compact acoustic geometric-phase meta-array[J].Journal of Applied Physics,2022, 131 (18).

[28] Liu B, Wei Q, Su Z, et al.Erratum: Multifunctional acoustic holography based on compact acoustic geometric-phase meta-array (J. Appl. Phys. (2022) 131 (185108) DOI: 10.1063/5.0085562)[J].Journal of Applied Physics,2022, 131 (22).

[29] Liao Q, Yang J, Wang Y, et al.Augmented Reality Technology Based on Micro- and Nano-Optical Elements[J].Laser and Optoelectronics Progress,2022, 59 (20).

[30] Li X, Zhang X, Zhao R, et al.Independent Light Field Manipulation in Diffraction Orders of Metasurface Holography[J].Laser and Photonics Reviews,2022, 16 (8).

[31] Ju Y, Peng J, Chen Y, et al.Water-Sensitive Mixed-Phase PEA6SnI8Perovskite Derivative Single Crystal for Humidity Detection[J].Crystal Growth and Design,2022, 22 (8): 4689-4695.

[32] Jing X, Zhao R, Li X, et al.Single-shot 3D imaging with point cloud projection based on metadevice[J].Nature Communications,2022, 13 (1).

[33] Jiang Q, Hu L, Geng G, et al.Arbitrary amplitude and phase control in visible by dielectric metasurface[J].Optics Express,2022, 30 (8): 13530-13539.

[34] Dong B, Zhao R, Wei Q, et al.Terahertz switchable VO2-Au hybrid active metasurface holographic encryption[J].Optics Express,2022, 30 (12): 20750-20761.

[35] Dong B, Zhang C, Guo G, et al.BST-silicon hybrid terahertz meta-modulator for dual-stimuli-triggered opposite transmission amplitude control[J].Nanophotonics,2022, 11 (9): 2075-2083.

[36] Chen Y, Zhao R, He H, et al.Spectrum dispersion element based on the metasurface with parabolic phase[J].Optics Express,2022, 30 (18): 32670-32679.

[37] Chen Y, Huang L, Liu B, et al.Broadband achromatic metalens and meta-deflector based on integrated metasurface[J].Journal of Physics D: Applied Physics,2022, 55 (2).

[38] Cai S, Ju Y, Wang Y, et al.Fast-Response Oxygen Optical Fiber Sensor based on PEA2SnI4 Perovskite with Extremely Low Limit of Detection[J].Advanced Science,2022, 9 (8).

[39] Cai S, Hu W, Liu Y, et al.Optical fiber hydrogen sensor using metasurfaces composed of palladium[J].Chinese Optics Letters,2022, 20 (5).

[40] Bi Y, Huang L, Zhao R, et al.Magnetically controllable holographic encryption based on a magneto-optical metasurface[J].Optics Express,2022, 30 (5): 8366-8375.

2021年

[1] Zhu S, Xu Z, Zhang H, et al.Liquid crystal integrated metadevice for reconfigurable hologram displays and optical encryption[J].Optics Express,2021, 29 (6): 9553-9564.

[2] Zhou H, Wang Y, Li X, et al.A deep learning approach for trustworthy high-fidelity computational holographic orbital angular momentum communication[J].Applied Physics Letters,2021, 119 (4).

[3] Zhao R, Xiao X, Geng G, et al.Polarization and Holography Recording in Real- and k-Space Based on Dielectric Metasurface[J].Advanced Functional Materials,2021, 31 (27).

[4] Zhang S, Huang L, Li X, et al.Dynamic Display of Full-Stokes Vectorial Holography Based on Metasurfaces[J].ACS Photonics,2021, 8 (6): 1746-1753.

[5] Yao Z, Li X, Wang Z, et al.High-efficiency fabrication of computer-generated holograms in silica glass using a femtosecond Bessel beam[J].Optics and Laser Technology,2021, 135.

[6] Xie L, Chen B, Zhang F, et al.Stability enhancement of Cs3Cu2I5 powder with high blue emission realized by Na+ doping strategy[J].Journal of Luminescence,2021, 239.

[7] Wang Z, Jiang L, Li X, et al.Thermally Reconfigurable Hologram Fabricated by Spatially Modulated Femtosecond Pulses on a Heat-Shrinkable Shape Memory Polymer for Holographic Multiplexing[J].ACS Applied Materials and Interfaces,2021, 13 (43): 51736-51745.

[8] Wang Y, Zhou H, Yan J, et al.Advances in Computational Optics Based on Deep Learning[J].Zhongguo Jiguang/Chinese Journal of Lasers,2021, 48 (19).

[9] Wang H, Li Y, Huang L, et al.Achieving Broadband Spin-Correlated Asymmetric Reflection Using a Circular Dichroitic Meta-Mirror[J].Annalen der Physik,2021, 533 (3).

[10] Wang H, Jing Y, Li Y, et al.Spin-selective corner reflector for retro-reflection and absorption by a circular dichroitic manner[J].Photonics Research,2021, 9 (5): 726-733.

[11] Wang H, Jing Y, Li Y, et al.Tailoring Circular Dichroism for Simultaneous Control of Amplitude and Phase via Ohmic Dissipation Metasurface[J].Advanced Optical Materials,2021, 9 (12).

[12] Wang H, Cheng Y, Huang L, et al.Simultaneous control of amplitude and phase via shifting isotropy to anisotropy for achieving holographic meta-mirror[J].Optics Express,2021, 29 (26): 43745-43756.

[13] Su Z X, Yao E X, Huang L L, et al.Optical topological characteristics of two dimensional artificial metamaterials[J].Chinese Optics,2021, 14 (4): 955-967.

[14] Su Z X, Liu B Y, Huang L L, et al.Type-I Weyl points induced by negative coupling in photonic crystal[J].Science China: Physics, Mechanics and Astronomy,2021, 64 (6).

[15] Rosen J, Alford S, Anand V, et al.Roadmap on recent progress in finch technology[J].Journal of Imaging,2021, 7 (10).

[16] Liu Y, Liao Q, Wang Z, et al.Compact magnetic field sensor based on plasmonic fiber-tip[J].Optics Express,2021, 29 (23): 38904-38914.

[17] Liu B, Su Z, Zeng Y, et al.Acoustic geometric-phase meta-array[J].New Journal of Physics,2021, 23 (11).

[18] Li X, Zhao R, Wei Q, et al.Code Division Multiplexing Inspired Dynamic Metasurface Holography[J].Advanced Functional Materials,2021, 31 (35).

[19] Lei S, Zhang X, Zhu S, et al.Generation of Airy beam arrays in real and K spaces based on a dielectric metasurface[J].Optics Express,2021, 29 (12): 18781-18790.

[20] Huang J, Jiang L, Li X, et al.Controllable Photonic Structures on Silicon-on-Insulator Devices Fabricated Using Femtosecond Laser Lithography[J].ACS Applied Materials and Interfaces,2021, 13 (36): 43622-43631.

[21] Georgi P, Wei Q, Sain B, et al.Optical secret sharing with cascaded metasurface holography[J].Science Advances,2021, 7 (16).

[22] Frese D, Wei Q, Wang Y, et al.Nonlinear Bicolor Holography Using Plasmonic Metasurfaces[J].ACS Photonics,2021, 8 (4): 1013-1019.

[23] Frese D, Sain B, Zhou H, et al.A wavelength and polarization selective photon sieve for holographic applications[J].Nanophotonics,2021, 10 (18): 4543-4550.

[24] Bi Y, Huang L, Li X, et al.Magnetically controllable metasurface and its application[J].Frontiers of Optoelectronics,2021, 14 (2): 154-169.

2020年

[1] Zhou H, Wang Y, Li X, et al.Switchable active phase modulation and holography encryption based on hybrid metasurfaces[J].Nanophotonics,2020, 9 (4): 905-912.

[2] Zhou H, Sain B, Wang Y, et al.Polarization-Encrypted Orbital Angular Momentum Multiplexed Metasurface Holography[J].ACS Nano,2020, 14 (5): 5553-5559.

[3] Zhou H, Huang L, Li X, et al.All-dielectric bifocal isotropic metalens for a single-shot hologram generation device[J].Optics Express,2020, 28 (15): 21549-21559.

[4] Zheng H, Chen B, Shi L, et al.Stable blue-emissive aluminum acetylacetonate nanocrystals with high quantum yield of over 80% and embedded in polymer matrix for remote UV-pumped white light-emitting diodes[J].Nanophotonics,2020, 9 (6): 1509-1518.

[5] Zhao R, Huang L, Wang Y.Recent advances in multi-dimensional metasurfaces holographic technologies[J].PhotoniX,2020, 1 (1).

[6] Zhang F, Zhao Z, Chen B, et al.Strongly Emissive Lead-Free 0D Cs3Cu2I5 Perovskites Synthesized by a Room Temperature Solvent Evaporation Crystallization for Down-Conversion Light-Emitting Devices and Fluorescent Inks[J].Advanced Optical Materials,2020, 8 (8).

[7] Xu Z, Huang L, Li X, et al.Quantitatively Correlated Amplitude Holography Based on Photon Sieves[J].Advanced Optical Materials,2020, 8 (2).

[8] Xie L, Chen B, Zhang F, et al.Highly luminescent and stable lead-free cesium copper halide perovskite powders for UV-pumped phosphor-converted light-emitting diodes[J].Photonics Research,2020, 8 (6): 768-775.

[9] Wei Q, Huang L, Zentgraf T, et al.Optical wavefront shaping based on functional metasurfaces[J].Nanophotonics,2020, 9 (5): 987-1002.

[10] Wang Z, Li X, Jiang L, et al.High-quality micropattern printing by interlacing-pattern holographic femtosecond pulses[J].Nanophotonics,2020, 9 (9): 2895-2904.

[11] Spreyer F, Zhao R, Huang L, et al.Second harmonic imaging of plasmonic Pancharatnam-Berry phase metasurfaces coupled to monolayers of WS2[J].Nanophotonics,2020, 9 (2): 351-360.

[12] Liu B, Sain B, Reineke B, et al.Nonlinear Wavefront Control by Geometric-Phase Dielectric Metasurfaces: Influence of Mode Field and Rotational Symmetry[J].Advanced Optical Materials,2020, 8 (9).

[13] Li X, Xu Z, Jiang L, et al.Creating a three-dimensional surface with antireflective properties by using femtosecond-laser Bessel-beam-assisted thermal oxidation[J].Optics Letters,2020, 45 (11): 2989-2992.

[14] Li B, Li X, Zhao R, et al.Polarization Multiplexing Terahertz Metasurfaces through Spatial Femtosecond Laser-Shaping Fabrication[J].Advanced Optical Materials,2020, 8 (12).

[15] Jiang Q, Cao L, Huang L, et al.A complex-amplitude hologram using an ultra-thin dielectric metasurface[J].Nanoscale,2020, 12 (47): 24162-24168.

[16] Feng Y, Leiderer P, Zhao R, et al.Giant polarization anisotropic optical response from anodic aluminum oxide templates embedded with plasmonic metamaterials[J].Optics Express,2020, 28 (20): 29513-29528.

[17] Ding F, Chang B, Wei Q, et al.Versatile Polarization Generation and Manipulation Using Dielectric Metasurfaces[J].Laser and Photonics Reviews,2020, 14 (11).

2019年

[1] Zhou H, Huang L, Wang Y.Deep learning algorithm and its application in optics[J].Hongwai yu Jiguang Gongcheng/Infrared and Laser Engineering,2019, 48 (12).

[2] Xu Z, Jiang L, Li X, et al.Flash Ablation of Tunable and Deep-Subwavelength Nanogap by Using a Spatially Modulated Femtosecond Laser Pulse for Plasmonic Application[J].ACS Applied Nano Materials,2019, 2 (8): 4933-4941.

[3] Wei Q, Sain B, Wang Y, et al.Simultaneous Spectral and Spatial Modulation for Color Printing and Holography Using All-Dielectric Metasurfaces[J].Nano Letters,2019, 19 (12): 8964-8971.

[4] Tan H, Deng J, Zhao R, et al.A Free-Space Orbital Angular Momentum Multiplexing Communication System Based on a Metasurface[J].Laser and Photonics Reviews,2019, 13 (6).

[5] Sun L, Bai B, Wang J, et al.Probing the Photonic Spin–Orbit Interactions in the Near Field of Nanostructures[J].Advanced Functional Materials,2019, 29 (32).

[6] Lin Z, Li X, Zhao R, et al.High-efficiency Bessel beam array generation by Huygens metasurfaces[J].Nanophotonics,2019, 8 (6): 1079-1085.

[7] Lin Z, Huang L, Zhao R, et al.Dynamic control of mode modulation and spatial multiplexing using hybrid metasurfaces[J].Optics Express,2019, 27 (13): 18740-18750.

[8] Lin Z, Huang L, Xu Z T, et al.Four-Wave Mixing Holographic Multiplexing Based on Nonlinear Metasurfaces[J].Advanced Optical Materials,2019, 7 (21).

[9] Li T, Wei Q, Reineke B, et al.Reconfigurable metasurface hologram by utilizing addressable dynamic pixels[J].Optics Express,2019, 27 (15): 21153-21162.

[10] Huang L, Zhao R, Sain B, et al. High-dimensional vectorial metasurface holography[C].International Conference on Metamaterials, Photonic Crystals and Plasmonics,2019: 742-743.

[11] Huang L, Wei Q, Wang Y.Development and applications of wavefront modulation technology based on new functional metasurfaces(Invited)[J].Hongwai yu Jiguang Gongcheng/Infrared and Laser Engineering,2019, 48 (10).

[12] Huang L.Breaking the spatial reciprocity with Janus metamaterials[J].Light: Science and Applications,2019, 8 (1).

[13] Huang J, Jiang L, Li X, et al.Cylindrically Focused Nonablative Femtosecond Laser Processing of Long-Range Uniform Periodic Surface Structures with Tunable Diffraction Efficiency[J].Advanced Optical Materials,2019, 7 (20).

[14] Han N, Huang L, Lin Z, et al.Curved holography based on Ω-shaped conformal metasurfaces[J].Hongwai yu Jiguang Gongcheng/Infrared and Laser Engineering,2019, 48 (7).

2018年

[1] Zhao R, Sain B, Wei Q, et al.Multichannel vectorial holographic display and encryption[J].Light: Science and Applications,2018, 7 (1).

[2] Zhao R, Huang L, Tang C, et al.Nanoscale Polarization Manipulation and Encryption Based on Dielectric Metasurfaces[J].Advanced Optical Materials,2018, 6 (19).

[3] Song X, Huang L, Tang C, et al.Selective Diffraction with Complex Amplitude Modulation by Dielectric Metasurfaces[J].Advanced Optical Materials,2018, 6 (4).

[4] Song X, Huang L, Sun L, et al.Near-field plasmonic beam engineering with complex amplitude modulation based on metasurface[J].Applied Physics Letters,2018, 112 (7).

[5] Li B, Jiang L, Li X, et al.Flexible Gray-Scale Surface Patterning Through Spatiotemporal-Interference-Based Femtosecond Laser Shaping[J].Advanced Optical Materials,2018, 6 (24).

[6] Huang L, Zhang S, Zentgraf T.Metasurface holography: From fundamentals to applications[J].Nanophotonics,2018, 7 (6): 1169-1190.

[7] Han N, Huang L, Wang Y.Illusion and cloaking using dielectric conformal metasurfaces[J].Optics Express,2018, 26 (24): 31625-31635.

2017年

[1] Zhang T, Huang L, Li X, et al.High-efficiency broadband polarization converter based on ω-shaped metasurface[J].Journal of Physics D: Applied Physics,2017, 50 (45).

[2] Yin X, Steinle T, Huang L, et al.Beam switching and bifocal zoom lensing using active plasmonic metasurfaces[J].Light: Science and Applications,2017, 6 (7).

[3] Wei Q, Huang L, Li X, et al.Broadband Multiplane Holography Based on Plasmonic Metasurface[J].Advanced Optical Materials,2017, 5 (18).

[4] Wang A, Jiang L, Li X, et al.Nanoscale material redistribution induced by spatially modulated femtosecond laser pulses for flexible high-efficiency surface patterning[J].Optics Express,2017, 25 (25): 31431-31442.

[5] Li T Y, Huang L L, Wang Y T.The principle and research progress of metasurfaces[J].Chinese Optics,2017, 10 (5): 523-540.

[6] Li T, Huang L, Liu J, et al.Tunable wave plate based on active plasmonic metasurfaces[J].Optics Express,2017, 25 (4): 4216-4226.

[7] Huang L, Zheng J, Huang L, et al.Controlled Synthesis and Flexible Self-Assembly of Monodisperse Au@Semiconductor Core/Shell Hetero-Nanocrystals into Diverse Superstructures[J].Chemistry of Materials,2017, 29 (5): 2355-2363.

[8] Huang L, Song X, Reineke B, et al.Volumetric Generation of Optical Vortices with Metasurfaces[J].ACS Photonics,2017, 4 (2): 338-346.