[1] Fu R, Chen K X, Li Z L et al. Metasurface-based nanoprinting: principle, design and advances[J]. Opto-Electronic Science, 1, 220011(2022).

[2] Wu T, Xu Q, Zhang X Q et al. Spin-decoupled interference metasurfaces for complete complex-vectorial-field control and five-channel imaging[J]. Advanced Science, 9, e2204664(2022).

[3] Wan S, Li Z, Dai C J et al. Multi-dimensional light-emitting meta-display: photoluminescence and pumping light multiplexing[J]. Advanced Materials, 36, e2310294(2024).

[4] Tao J, You Q, Li Z L et al. Mass-manufactured beam-steering metasurfaces for high-speed full-duplex optical wireless-broadcasting communications[J]. Advanced Materials, 34, e2106080(2022).

[5] Ren R Y, Li Z L, Deng L G et al. Non-orthogonal polarization multiplexed metasurfaces for tri-channel polychromatic image displays and information encryption[J]. Nanophotonics, 10, 2903-2914(2021).

[6] Lin D K, Song H Y, Li J N et al. Multi-modulated holographic encrypted optical storage[J]. Chinese Journal of Lasers, 50, 1813009(2023).

[7] Dai C J, Wan C W, Li Z et al. Stepwise dual-Fabry-Pérot nanocavity for grayscale imaging encryption/concealment with holographic multiplexing[J]. Advanced Optical Materials, 9, 2100950(2021).

[8] Zhang F, Pu M B, Gao P et al. Simultaneous full-color printing and holography enabled by centimeter-scale plasmonic metasurfaces[J]. Advanced Science, 7, 1903156(2020).

[9] Yoon G, Lee D, Nam K T et al. “Crypto-display”in dual-mode metasurfaces by simultaneous control of phase and spectral responses[J]. ACS Nano, 12, 6421-6428(2018).

[10] Wei Q S, Sain B, Wang Y T et al. Simultaneous spectral and spatial modulation for color printing and holography using all-dielectric metasurfaces[J]. Nano Letters, 19, 8964-8971(2019).

[11] Zhao R Z, Sain B, Wei Q S et al. Multichannel vectorial holographic display and encryption[J]. Light: Science & Applications, 7, 95(2018).

[12] Guo X Y, Zhong J Z, Li B J et al. Full-color holographic display and encryption with full-polarization degree of freedom[J]. Advanced Materials, 34, 2103192(2022).

[13] Wen D D, Cadusch J J, Meng J J et al. Multifunctional dielectric metasurfaces consisting of color holograms encoded into color printed images[J]. Advanced Functional Materials, 30, 1906415(2020).

[14] Arbabi E, Kamali S M, Arbabi A et al. Vectorial holograms with a dielectric metasurface: ultimate polarization pattern generation[J]. ACS Photonics, 6, 2712-2718(2019).

[15] Deng Z L, Wang Z Q, Li F J et al. Multi-freedom metasurface empowered vectorial holography[J]. Nanophotonics, 11, 1725-1739(2022).

[16] Badloe T, Lee J, Seong J et al. Tunable metasurfaces: the path to fully active nanophotonics[J]. Advanced Photonics Research, 2, 2000205(2021).

[17] Hu Y Q, Luo X H, Chen Y Q et al. 3D-integrated metasurfaces for full-colour holography[J]. Light: Science & Applications, 8, 86(2019).

[18] Bao Y J, Yu Y, Xu H F et al. Full-colour nanoprint-hologram synchronous metasurface with arbitrary hue-saturation-brightness control[J]. Light: Science & Applications, 8, 95(2019).

[19] Zheng G X, Fu R, Deng L G et al. On-axis three-dimensional meta-holography enabled with continuous-amplitude modulation of light[J]. Optics Express, 29, 6147-6157(2021).

[20] Deng J, Deng L G, Guan Z Q et al. Multiplexed anticounterfeiting meta-image displays with single-sized nanostructures[J]. Nano Letters, 20, 1830-1838(2020).

[21] Guo X Y, Li P, Zhong J Z et al. Stokes meta-hologram toward optical cryptography[J]. Nature Communications, 13, 6687(2022).

[22] Benea-Chelmus I C, Meretska M L, Elder D L et al. Electro-optic spatial light modulator from an engineered organic layer[J]. Nature Communications, 12, 5928(2021).

[23] Zheng R, Wei Y, Zhang Z C et al. Stimuli-responsive active materials for dynamic control of light field[J]. Responsive Materials, 1, 20230017(2023).

[24] Zhang Y B, Li Z C, Liu W W et al. On-chip multidimensional manipulation of far-field radiation with guided wave-driven metasurfaces[J]. Laser & Photonics Reviews, 17, 2300109(2023).

[25] Deng L G, Li Z L, Zhou Z et al. Bilayer-metasurface design, fabrication, and functionalization for full-space light manipulation[J]. Advanced Optical Materials, 10, 2102179(2022).

[26] Frese D, Wei Q S, Wang Y T et al. Nonlinear bicolor holography using plasmonic metasurfaces[J]. ACS Photonics, 8, 1013-1019(2021).

[27] Li J X, Wang Y Q, Chen C et al. From lingering to rift: metasurface decoupling for near- and far-field functionalization[J]. Advanced Materials, 33, e2007507(2021).

[28] Li Z L, Chen C, Guan Z Q et al. Three-channel metasurfaces for simultaneous meta-holography and meta-nanoprinting: a single-cell design approach[J]. Laser & Photonics Reviews, 14, 2000032(2020).

[29] Wan S, Wan C W, Dai C J et al. Angular-multiplexing metasurface: building up independent-encoded amplitude/phase dictionary for angular illumination[J]. Advanced Optical Materials, 9, 2101547(2021).

[30] Ren H R, Briere G, Fang X Y et al. Metasurface orbital angular momentum holography[J]. Nature Communications, 10, 2986(2019).

[31] Li Y L, Li N N, Wang D et al. Tunable liquid crystal grating based holographic 3D display system with wide viewing angle and large size[J]. Light: Science & Applications, 11, 188(2022).

[32] Lu Y Q. Liquid crystal soft mattonics: multi-degree manitipulation of light[J]. Physics, 52, 116-124(2023).

[33] Zhu C, Shao Z L, Zhou Y J et al. Advances in multi-dimensional light field modulation based on liquid crystal[J]. Chinese Journal of Lasers, 50, 1813006(2023).

[34] Dai Y Y, Gao L, Pang Z et al. Influence of the frequency of external applied voltage on the dielectric anisotropy of liquid crystal[J]. Chinese Journal of Liquid Crystals and Displays, 33, 175(2018).

[35] Xiong J, Li Y, Li K et al. Aberration-free pupil steerable Maxwellian display for augmented reality with cholesteric liquid crystal holographic lenses[J]. Optics Letters, 46, 1760-1763(2021).

[36] Yin K, Hsiang E L, Zou J Y et al. Advanced liquid crystal devices for augmented reality and virtual reality displays: principles and applications[J]. Light: Science & Applications, 11, 161(2022).

[37] Xie X, Du W J, Shao Z L et al. Multichannel binary-image and holographic display based on planar liquid crystal devices[J]. Laser & Photonics Reviews, 17, 2300193(2023).

[38] Tang D L, Shao Z L, Zhou Y J et al. Simultaneous surface display and holography enabled by flat liquid crystal elements[J]. Laser & Photonics Reviews, 16, 2100491(2022).

[39] Chen K X, Xu C T, Zhou Z et al. Multifunctional liquid crystal device for grayscale pattern display and holography with tunable spectral-response[J]. Laser & Photonics Reviews, 16, 2100591(2022).

[40] Tang J, Wan S, Shi Y Y et al. Dynamic augmented reality display by layer-folded metasurface via electrical-driven liquid crystal[J]. Advanced Optical Materials, 10, 2200418(2022).

[41] Chen P, Shen Z X, Xu C T et al. Simultaneous realization of dynamic and hybrid multiplexed holography via light-activated chiral superstructures[J]. Laser & Photonics Reviews, 16, 2200011(2022).

[42] Song H Y, Li J N, Fan L L et al. Study on collinear holographic storage system with orthogonal phase encryption[J]. Chinese Journal of Lasers, 50, 1813017(2023).

[43] Hu W, Srivastava A, Xu F et al. Liquid crystal gratings based on alternate TN and PA photoalignment[J]. Optics Express, 20, 5384-5391(2012).