REFERENCES
1. Zhang DW, Li M, Chen CF. Recent advances in circularly polarized electroluminescence based on organic light-emitting diodes. Chem Soc Rev 2020;49:1331-43.
2. Dhbaibi K, Abella L, Meunier-Della-Gatta S, et al. Achieving high circularly polarized luminescence with push-pull helicenic systems: from rationalized design to top-emission CP-OLED applications. Chem Sci 2021;12:5522-33.
3. Sang Y, Han J, Zhao T, Duan P, Liu M. Circularly polarized luminescence in nanoassemblies: generation, amplification, and application. Adv Mater 2020;32:e1900110.
4. Han D, Yang X, Han J, Zhou J, Jiao T, Duan P. Sequentially amplified circularly polarized ultraviolet luminescence for enantioselective photopolymerization. Nat Commun 2020;11:5659.
5. Zhan X, Xu FF, Zhou Z, Yan Y, Yao J, Zhao YS. 3D laser displays based on circularly polarized lasing from cholesteric liquid crystal arrays. Adv Mater 2021;33:e2104418.
6. Chen W, Ma K, Duan P, et al. Circularly polarized luminescence of nanoassemblies via multi-dimensional chiral architecture control. Nanoscale 2020;12:19497-515.
7. Zhao T, Han J, Shi Y, Zhou J, Duan P. Multi-light-responsive upconversion-and-downshifting-based circularly polarized luminescent switches in chiral metal-organic frameworks. Adv Mater 2021;33:e2101797.
8. Jin X, Sang Y, Shi Y, et al. Optically active upconverting nanoparticles with induced circularly polarized luminescence and enantioselectively triggered photopolymerization. ACS Nano 2019;13:2804-11.
9. Li L, Li D, Dong X, et al. A confined self-assembly approach towards chiral photonic materials with circularly polarized structural colors for information storage and encryption. Chem Eng J 2024;479:147669.
10. Zhao T, Han J, Duan P, Liu M. New perspectives to trigger and modulate circularly polarized luminescence of complex and aggregated systems: energy transfer, photon upconversion, charge transfer, and organic radical. Acc Chem Res 2020;53:1279-92.
11. Liu Y, Xing P. Circularly polarized light responsive materials: design strategies and applications. Adv Mater 2023;35:e2300968.
12. Longhi G, Castiglioni E, Koshoubu J, Mazzeo G, Abbate S. Circularly polarized luminescence: a review of experimental and theoretical aspects. Chirality 2016;28:696-707.
13. He Y, Lin S, Guo J, Li Q. Circularly polarized luminescent self-organized helical superstructures: from materials and stimulus-responsiveness to applications. Aggregate 2021;2:e141.
14. Zhang C, Li S, Dong X, Zang S. Circularly polarized luminescence of agglomerate emitters. Aggregate 2021;2:e48.
15. Wu Z, Yao Q, Chai OJH, et al. Unraveling the impact of gold(I)-thiolate motifs on the aggregation-induced emission of gold nanoclusters. Angew Chem Int Ed Engl 2020;59:9934-9.
16. Jin Y, Peng QC, Xie JW, Li K, Zang SQ. Photo-activated circularly polarized luminescence film based on aggregation-induced emission copper(I) cluster-assembled materials. Angew Chem Int Ed Engl 2023;62:e202301000.
17. Wang Y, Li N, Chu L, et al. Dual enhancement of phosphorescence and circularly polarized luminescence through entropically driven self-assembly of a platinum(II) complex. Angew Chem Int Ed Engl 2024;63:e202403898.
18. Zhang J, Dai L, Webster AM, et al. Unusual magnetic field responsive circularly polarized luminescence probes with highly emissive chiral europium(III) complexes. Angew Chem Int Ed Engl 2021;60:1004-10.
19. Dong J, Liu Y, Cui Y. Supramolecular chirality in metal-organic complexes. Acc Chem Res 2021;54:194-206.
20. Zheng S, Han J, Jin X, et al. Halogen bonded chiral emitters: generation of chiral fractal architecture with amplified circularly polarized luminescence. Angew Chem Int Ed Engl 2021;60:22711-6.
21. Zhao T, Meng D, Hu Z, et al. Enhanced chiroptic properties of nanocomposites of achiral plasmonic nanoparticles decorated with chiral dye-loaded micelles. Nat Commun 2023;14:81.
22. Roose J, Tang BZ, Wong KS. Circularly-polarized luminescence (CPL) from chiral AIE molecules and macrostructures. Small 2016;12:6495-512.
23. Liu J, Yang L, Qin P, Zhang S, Yung KKL, Huang Z. Recent advances in inorganic chiral nanomaterials. Adv Mater 2021;33:e2005506.
24. Ma K, Chen W, Jiao T, et al. Boosting the circularly polarized luminescence of small organic molecules via multi-dimensional morphology control. Chem Sci 2019;10:6821-7.
25. Zhao B, Pan K, Deng J. Intense circularly polarized luminescence contributed by helical chirality of monosubstituted polyacetylenes. Macromolecules 2018;51:7104-11.
26. Zhao B, Yu H, Pan K, Tan Z, Deng J. Multifarious chiral nanoarchitectures serving as handed-selective fluorescence filters for generating full-color circularly polarized luminescence. ACS Nano 2020;14:3208-18.
27. Zhao B, Gao X, Pan K, Deng J. Chiral helical polymer/perovskite hybrid nanofibers with intense circularly polarized luminescence. ACS Nano 2021;15:7463-71.
28. Yang D, Han J, Sang Y, Zhao T, Liu M, Duan P. Steering triplet-triplet annihilation upconversion through enantioselective self-assembly in a supramolecular gel. J Am Chem Soc 2021;143:13259-65.
29. Yang D, Duan P, Zhang L, Liu M. Chirality and energy transfer amplified circularly polarized luminescence in composite nanohelix. Nat Commun 2017;8:15727.
30. Zhang G, Bao Y, Ma H, et al. Precise modulation of circularly polarized luminescence via polymer chiral co-assembly and contactless dynamic chiral communication. Angew Chem Int Ed Engl 2024;63:e202401077.
31. Gong Z, Zhu X, Zhou Z, et al. Frontiers in circularly polarized luminescence: molecular design, self-assembly, nanomaterials, and applications. Sci China Chem 2021;64:2060-104.
32. Wong H, Lo W, Yim K, Law G. Chirality and chiroptics of lanthanide molecular and supramolecular assemblies. Chem 2019;5:3058-95.
33. Yang X, Zhou M, Wang Y, Duan P. Electric-field-regulated energy transfer in chiral liquid crystals for enhancing upconverted circularly polarized luminescence through steering the photonic bandgap. Adv Mater 2020;32:e2000820.
34. Yang X, Jin X, Zheng A, Duan P. Dual band-edge enhancing overall performance of upconverted near-infrared circularly polarized luminescence for anticounterfeiting. ACS Nano 2023;17:2661-8.
35. Yang X, Jin X, Zhao T, Duan P. Circularly polarized luminescence in chiral nematic liquid crystals: generation and amplification. Mater Chem Front 2021;5:4821-32.
36. Eelkema R, Feringa BL. Amplification of chirality in liquid crystals. Org Biomol Chem 2006;4:3729-45.
37. Li X, Hu W, Wang Y, Quan Y, Cheng Y. Strong CPL of achiral AIE-active dyes induced by supramolecular self-assembly in chiral nematic liquid crystals (AIE-N*-LCs). Chem Commun 2019;55:5179-82.
38. Yoshida S, Morikawa S, Ueda K, Kaneko K, Hanasaki T, Akagi K. Helicity control of circularly polarized luminescence from aromatic conjugated copolymers and their mixture using reversibly photoinvertible chiral liquid crystals. ACS Appl Mater Interfaces 2024;16:3991-4002.
39. Lu X, Zhou Z, Ni B, et al. Tuning the circularly polarized luminescence of polymer-stabilized cholesteric liquid crystal films using chiral dopants. J Mater Chem C 2022;10:8246-53.
40. Gao J, Tian M, He Y, Yi H, Guo J. Multidimensional-encryption in emissive liquid crystal elastomers through synergistic usage of photorewritable fluorescent patterning and reconfigurable 3D shaping. Adv Funct Mater 2022;32:2107145.
41. Chen Y, Zhang Y, Li H, et al. Dynamic circularly polarized luminescence with tunable handedness and intensity enabled by achiral dichroic dyes in cholesteric liquid crystal medium. Adv Mater 2022;34:e2202309.
42. Wang X, Zhao B, Deng J. Liquid crystals doped with chiral fluorescent polymer: multi-color circularly polarized fluorescence and room-temperature phosphorescence with high dissymmetry factor and anti-counterfeiting application. Adv Mater 2023;35:e2304405.
43. Gong W, Zhou M, Xiao L, et al. Multicolor-tunable and time-dependent circularly polarized room-temperature phosphorescence from liquid crystal copolymers. Adv Opt Mater 2024;12:2301922.
44. Wu Y, Li M, Zheng ZG, Yu ZQ, Zhu WH. Liquid crystal assembly for ultra-dissymmetric circularly polarized luminescence and beyond. J Am Chem Soc 2023;145:12951-66.
46. Yuan J, Lu X, Lu Q. Large-scale chiral spherulites with controllable circularly polarized luminescence in liquid crystal block copolymers film. Aggregate 2024;5:e431.
47. Kang W, Tang Y, Meng X, et al. A photo- and thermo-driven azoarene-based circularly polarized luminescence molecular switch in a liquid crystal host. Angew Chem Int Ed Engl 2023;62:e202311486.
48. Wu Z, Pan K, Lü B, Ma L, Yang W, Yin M. Tunable morphology of spiropyran assemblies: from nanospheres to nanorods. Chem Asian J 2016;11:3102-6.
49. Shi Y, Han J, Jin X, Miao W, Zhang Y, Duan P. Chiral luminescent liquid crystal with multi-state-reversibility: breakthrough in advanced anti-counterfeiting materials. Adv Sci 2022;9:e2201565.
50. Kang S, Li Y, Bukharina D, et al. Bio-organic chiral nematic materials with adaptive light emission and on-demand handedness. Adv Mater 2021;33:e2103329.
51. Li RJ, Holstein JJ, Hiller WG, Andréasson J, Clever GH. Mechanistic interplay between light switching and guest binding in photochromic [Pd2Dithienylethene4] coordination cages. J Am Chem Soc 2019;141:2097-103.
52. Lin S, Gutierrez-cuevas KG, Zhang X, Guo J, Li Q. Fluorescent photochromic α-cyanodiarylethene molecular switches: an emerging and promising class of functional diarylethene. Adv Funct Mater 2021;31:2007957.
53. Lin S, Sun H, Qiao J, Ding X, Guo J. Phototuning energy transfer in self-organized luminescent helical superstructures for photonic applications. Adv Opt Mater 2020;8:2000107.
54. Li Y, Chen Y, Luo J, Quan Y, Cheng Y. Light-driven sign inversion of circularly polarized luminescence enabled by dichroism modulation in cholesteric liquid crystals. Adv Mater 2024;36:e2312331.
55. Sun J, Yu L, Wang L, et al. Optical intensity-driven reversible photonic bandgaps in self-organized helical superstructures with handedness inversion. J Mater Chem C 2017;5:3678-83.
56. Zhao D, van Leeuwen T, Cheng J, Feringa BL. Dynamic control of chirality and self-assembly of double-stranded helicates with light. Nat Chem 2017;9:250-6.
