[1] DQ Zhang, QP Zhang, YY Zhu et al. Metal halide perovskite nanowires: synthesis, integration, properties, and applications in optoelectronics. Adv Energy Mater, 13, 2201735(2023).

[2] MZ Liu, PC Huo, WQ Zhu et al. Broadband generation of perfect Poincaré beams via dielectric spin-multiplexed metasurface. Nat Commun, 12, 2230(2021).

[3] SN Khonina, NL Kazanskiy, MA Butt et al. Optical multiplexing techniques and their marriage for on-chip and optical fiber communication: a review. Opto-Electron Adv, 5, 210127(2022).

[4] HP Wang, SY Li, XY Liu et al. Low-dimensional metal halide perovskite photodetectors. Adv Mater, 33, 2003309(2021).

[5] TW Lu, XS Lin, QA Guo et al. High-speed visible light communication based on micro-LED: A technology with wide applications in next generation communication. Opto-Electron Sci, 1(2022).

[6] TX Zhu, C Liu, M Jin et al. On-demand integrated quantum memory for polarization qubits. Phys Rev Lett, 128, 180501(2022).

[7] YF Wang, JF Li, SC Zhang et al. Efficient quantum memory for single-photon polarization qubits. Nat Photonics, 13, 346-351(2019).

[8] WG Lu, XG Wu, S Huang et al. Strong polarized photoluminescence from stretched perovskite-nanocrystal-embedded polymer composite films. Adv Opt Mater, 5, 1700594(2017).

[9] CH Lin, CY Kang, TZ Wu et al. Giant optical anisotropy of perovskite nanowire array films. Adv Funct Mater, 30, 1909275(2020).

[10] XT Fan, TZ Wu, B Liu et al. Recent developments of quantum dot based micro-LED based on non-radiative energy transfer mechanism. Opto-Electron Adv, 4, 210022(2021).

[11] M Baeva, D Gets, A Polushkin et al. ITO-free silicon-integrated perovskite electrochemical cell for light-emission and light-detection. Opto-Electron Adv, 6, 220154(2023).

[12] S Subedi, AK Rella, LG Trung et al. Electrically switchable anisometric carbon quantum dots exhibiting linearly polarized photoluminescence: syntheses, anisotropic properties, and facile control of uniaxial orientation. ACS Nano, 16, 6480-6492(2022).

[13] SQ Lai, SB Liu, ZL Li et al. Applications of lasers: A promising route toward low-cost fabrication of high-efficiency full-color micro-LED displays. Opto-Electron Sci, 2, 230028(2023).

[14] D Täuber, A Dobrovolsky, R Camacho et al. Exploring the electronic band structure of organometal halide perovskite via photoluminescence anisotropy of individual nanocrystals. Nano Lett, 16, 5087-5094(2016).

[15] D Ghoshal, TM Wang, HZ Tsai et al. Catalyst-free and morphology-controlled growth of 2D perovskite nanowires for polarized light detection. Adv Opt Mater, 7, 1900039(2019).

[16] QP Chen, XJ Huang, DD Yang et al. Three-dimensional laser writing aligned perovskite quantum dots in glass for polarization-sensitive anti-counterfeiting. Adv Opt Mater, 11, 2300090(2023).

[17] M Ng, SB Shivarudraiah, JE Halpert. Polarization anisotropy losses due to morphological instability in CsPbX3 nanorods and strategies for mitigation. J Mater Chem C, 10, 8947-8954(2022).

[18] YX Li, H Huang, Y Xiong et al. Using polar alcohols for the direct synthesis of cesium lead halide perovskite nanorods with anisotropic emission. ACS Nano, 13, 8237-8245(2019).

[19] Y Tong, BJ Bohn, E Bladt et al. From precursor powders to CsPbX3 perovskite nanowires: one-pot synthesis, growth mechanism, and oriented self-assembly. Angew Chem Int Ed, 56, 13887-13892(2017).

[20] YZ Wang, S Jia, W Luo et al. Inch-sized aligned polymer nanofiber films with embedded CH3NH3PbBr3 nanocrystals: electrospinning fabrication using a folded aluminum foil as the collector. Nanotechnology, 31, 075708(2020).

[21] JJ Qin, J Zhang, TY Shen et al. Aligning transition dipole moment toward light amplification and polarized emission in hybrid aerovskites. Adv Opt Mater, 9, 2100984(2021).

[22] LG Liu, S Huang, LF Pan et al. Colloidal synthesis of CH3NH3PbBr3 nanoplatelets with polarized emission through self-organization. Angew Chem Int Ed, 56, 1780-1783(2017).

[23] Y Gao, LY Zhao, QY Shang et al. Ultrathin CsPbX3 nanowire arrays with strong emission anisotropy. Adv Mater, 30, 1801805(2018).

[24] T Güner, G Topçu, U Savacı et al. Polarized emission from CsPbBr3 nanowire embedded-electrospun PU fibers. Nanotechnology, 29, 135202(2018).

[25] JQ Ma, C Fang, C Chen et al. Chiral 2D perovskites with a high degree of circularly polarized photoluminescence. ACS Nano, 13, 3659-3665(2019).

[26] ZF Shi, Y Li, S Li et al. Polarized emission effect realized in CH3NH3PbI3 perovskite nanocrystals. J Mater Chem C, 5, 8699-8706(2017).

[27] D Wang, D Wu, D Dong et al. Polarized emission from CsPbX3 perovskite quantum dots. Nanoscale, 8, 11565-11570(2016).

[28] CL Chang, K Bang, G Wetzstein et al. Toward the next-generation VR/AR optics: a review of holographic near-eye displays from a human-centric perspective. Optica, 7, 1563-1578(2020).

[29] CH Huang, YT Cheng, YC Tsao et al. Micro-LED backlight module by deep reinforcement learning and micro-macro-hybrid environment control agent. Photonics Res, 10, 269-279(2022).

[30] SWH Chen, YM Huang, KJ Singh et al. Full-color micro-LED display with high color stability using semipolar (20–21) InGaN LEDs and quantum-dot photoresist. Photonics Res, 8, 630-636(2020).

[31] SWH Chen, YM Huang, YH Chang et al. High-bandwidth green semipolar (20–21) InGaN/GaN micro light-emitting diodes for visible light communication. ACS Photonics, 7, 2228-2235(2020).

[32] KJ Singh, XT Fan, AS Sadhu et al. CsPbBr3 perovskite quantum-dot paper exhibiting a highest 3 dB bandwidth and realizing a flexible white-light system for visible-light communication. Photonics Res, 9, 2341-2350(2021).

[33] M Khoury, HJ Li, PP Li et al. Polarized monolithic white semipolar (20–21) InGaN light-emitting diodes grown on high quality (20–21) GaN/sapphire templates and its application to visible light communication. Nano Energy, 67, 104236(2020).

[34] HJ Zhang, PP Li, HJ Li et al. High polarization and fast modulation speed of dual wavelengths electroluminescence from semipolar (20–21) micro light-emitting diodes with indium tin oxide surface grating. Appl Phys Lett, 117, 181105(2020).

[35] ZA Peng, XG Peng. Nearly monodisperse and shape-controlled CdSe nanocrystals via alternative routes: Nucleation and growth. J Am Chem Soc, 124, 3343-3353(2002).

[36] SN Raja, Y Bekenstein, MA Koc et al. Encapsulation of perovskite nanocrystals into macroscale polymer matrices: enhanced stability and polarization. ACS Appl Mater Interfaces, 8, 35523-35533(2016).

[37] JS Kamal, R Gomes, Z Hens et al. Direct determination of absorption anisotropy in colloidal quantum rods. Phys Rev B, 85, 035126(2012).

[38] BN Han, B Cai, QS Shan et al. Stable, efficient red perovskite light-emitting diodes by (α, δ)-CsPbI3 phase engineering. Adv Funct Mater, 28, 1804285(2018).

[39] LY Cao, BM Liu, L Huang et al. Bright and tunable emissive monodisperse CsPbI3@Cs4PbI6 nanocomposites via a precise and controllable dissolution-recrystallization method. Nano Res, 16, 1586-1594(2023).

[40] GK Grandhi, NSM Viswanath, JH In et al. Robust, brighter red emission from CsPbI3 perovskite nanocrystals via endotaxial protection. J Phys Chem Lett, 11, 3699-3704(2020).

[41] X Wang, YC Ling, XJ Lian et al. Suppressed phase separation of mixed-halide perovskites confined in endotaxial matrices. Nat Commun, 10, 695(2019).

[42] J Dong, W Wang, YQ Li et al. Crystallization regulation and protection of quasi-2D perovskite film by copolymer to enhance the stability of perovskite light-emitting diodes. J Mater Chem C, 10, 11258-11265(2022).

[43] XC Meng, ZR Cai, YY Zhang et al. Bio-inspired vertebral design for scalable and flexible perovskite solar cells. Nat Commun, 11, 3016(2020).

[44] ZM Chu, QF Ye, Y Zhao et al. Perovskite light-emitting diodes with external quantum efficiency exceeding 22% via small-molecule passivation. Adv Mater, 33, 2007169(2021).

[45] H Looyenga. Dielectric constants of homogeneous mixture. Mol Phys, 9, 501-511(1965).

[46] M Afsari, A Boochani, M Hantezadeh. Electronic, optical and elastic properties of cubic perovskite CsPbI3: using first principles study. Optik, 127, 11433-11443(2016).

[47] C Li, J Nie, JF Cai et al. 0D structured Cs4PbI6 single crystals for highly performance UV photodetection. J Alloys Compd, 896, 163047(2022).

[48] YJ Dou, F Cao, T Dudka et al. Lattice distortion in mixed-anion lead halide perovskite nanorods leads to their high fluorescence anisotropy. ACS Mater Lett, 2, 814-820(2020).

[49] GC Pan, X Bai, XY Shen et al. Bright red YCl3-promoted CsPbI3 perovskite nanorods towards efficient light-emitting diode. Nano Energy, 81, 105615(2021).

[50] TZ Wu, Y Lin, YM Huang et al. Highly stable full-color display device with VLC application potential using semipolar μLEDs and all-inorganic encapsulated perovskite nanocrystal. Photonics Res, 9, 2132-2143(2021).

[51] Mierry P De, T Guehne, M Nemoz et al. Comparison between polar (0001) and semipolar (1122) nitride blue-green light-emitting diodes grown on c- and m-plane sapphire substrates. Jpn J Appl Phys, 48, 031002(2009).

[52] SE Brinkley, YD Lin, A Chakraborty et al. Polarized spontaneous emission from blue-green m-plane GaN-based light emitting diodes. Appl Phys Lett, 98, 011110(2011).

[53] M Ng, P Geng, SB Shivarudraiah et al. Synthesis of cesium copper bromide nanorods with strong linearly polarized emission. Adv Opt Mater, 10, 2201031(2022).

[54] CY Kong, CH Lin, CH Lin et al. Highly efficient and stable white light-emitting diodes using perovskite quantum dot paper. Adv Sci, 6, 1902230(2019).