[1] Tan Z K, Moghaddam R S, LaiML, Docampo P, Higler R, Deschler F, Price M, Sadhanala A, Pazos L M, Credgington D, Hanusch F, Bein T, Snaith H J, Friend R H. Bright light-emitting diodes based on organometal halide perovskite. Nature Nanotechnology, 2014, 9 (9): 687–692

[2] Song J, Li J, Li X, Xu L, Dong Y, Zeng H. Quantum dot lightemitting diodes based on inorganic perovskite cesium lead halides (CsPbX3). Advanced Materials, 2015, 27(44): 7162–7167

[3] Yuan M, Quan L N, Comin R, Walters G, Sabatini R, Voznyy O, Hoogland S, Zhao Y, Beauregard E M, Kanjanaboos P, Lu Z, Kim D H, Sargent E H. Perovskite energy funnels for efficient lightemitting diodes. Nature Nanotechnology, 2016, 11(10): 872–877

[4] Cho H, Jeong S H, Park M H, Kim Y H, Wolf C, Lee C L, Heo J H, Sadhanala A, Myoung N, Yoo S, Im S H, Friend R H, Lee T W. Overcoming the electroluminescence efficiency limitations of perovskite light-emitting diodes. Science, 2015, 350(6265): 1222– 1225

[5] Wei Z, Perumal A, Su R, Sushant S, Xing J, Zhang Q, Tan S T, Demir H V, Xiong Q. Solution-processed highly bright and durable cesium lead halide perovskite light-emitting diodes. Nanoscale, 2016, 8(42): 18021–18026

[6] Wei Z, Xing J. The rise of perovskite light-emitting diodes. Journal of Physical Chemistry Letters, 2019, 10(11): 3035–3042

[7] Wang J,Wang N, Jin Y, Si J, Tan Z K, Du H, Cheng L, Dai X, Bai S, He H, Ye Z, Lai M L, Friend R H, Huang W. Interfacial control toward efficient and low-voltage perovskite light-emitting diodes. Advanced Materials, 2015, 27(14): 2311–2316

[8] Li G, Rivarola FWR, Davis N J L K, Bai S, Jellicoe T C, de la Pe?a F, Hou S, Ducati C, Gao F, Friend R H, Greenham N C, Tan Z K. Highly efficient perovskite nanocrystal light-emitting diodes enabled by a universal crosslinking method. Advanced Materials, 2016, 28(18): 3528–3534

[9] ang N, Cheng L, Ge R, Zhang S, Miao Y, Zou W, Yi C, Sun Y, Cao Y, Yang R, Wei Y, Guo Q, Ke Y, Yu M, Jin Y, Liu Y, Ding Q, Di D, Yang L, Xing G, Tian H, Jin C, Gao F, Friend R H, Wang J, Huang W. Perovskite light-emitting diodes based on solutionprocessed self-organized multiple quantum wells. Nature Photonics, 2016, 10(11): 699–704

[10] Xiao Z, Kerner R A, Zhao L, Tran N L, Lee KM, Koh TW, Scholes G D, Rand B P. Efficient perovskite light-emitting diodes featuring nanometre-sized crystallites. Nature Photonics, 2017, 11(2): 108– 115

[11] Zhang L, Yang X, Jiang Q,Wang P, Yin Z, Zhang X, Tan H, Yang Y M, Wei M, Sutherland B R, Sargent E H, You J. Ultra-bright and highly efficient inorganic based perovskite light-emitting diodes. Nature Communications, 2017, 8(1): 15640

[12] Wu Y, Wei C, Li X, Li Y, Qiu S, Shen W, Cai B, Sun Z, Yang D, Deng Z, Zeng H. In situ passivation of PbBr6 4– octahedra toward blue luminescent CsPbBr3 nanoplatelets with near 100% absolute quantum yield. ACS Energy Letters, 2018, 3(9): 2030–2037

[13] Xing J, Zhao Y, Askerka M, Quan L N, Gong X, Zhao W, Zhao J, Tan H, Long G, Gao L, Yang Z, Voznyy O, Tang J, Lu Z H, Xiong Q, Sargent E H. Color-stable highly luminescent sky-blue perovskite light-emitting diodes. Nature Communications, 2018, 9 (1): 3541

[14] Lu J, Feng W, Mei G, Sun J, Yan C, Zhang D, Lin K, Wu D, Wang K, Wei Z. Ultrathin PEDOT:PSS enables colorful and efficient perovskite light-emitting diodes. Advanced Science, 2020, 7(11): 2000689

[15] Lin K, Xing J, Quan L N, de Arquer F P G, Gong X, Lu J, Xie L, Zhao W, Zhang D, Yan C, Li W, Liu X, Lu Y, Kirman J, Sargent E H, Xiong Q, Wei Z. Perovskite light-emitting diodes with external quantum efficiency exceeding 20 percent. Nature, 2018, 562(7726): 245–248

[16] Chiba T, Hayashi Y, Ebe H, Hoshi K, Sato J, Sato S, Pu Y J, Ohisa S, Kido J. Anion-exchange red perovskite quantum dots with ammonium iodine salts for highly efficient light-emitting devices. Nature Photonics, 2018, 12(11): 681–687

[17] Zhao X, Tan Z K. Large-area near-infrared perovskite light-emitting diodes. Nature Photonics, 2020, 14(4): 215–218

[18] Cao Y, Wang N, Tian H, Guo J, Wei Y, Chen H, Miao Y, Zou W, Pan K, He Y, Cao H, Ke Y, Xu M, Wang Y, Yang M, Du K, Fu Z, Kong D, Dai D, Jin Y, Li G, Li H, Peng Q, Wang J, Huang W. Perovskite light-emitting diodes based on spontaneously formed submicrometre-scale structures. Nature, 2018, 562(7726): 249–253

[19] Xu W, Hu Q, Bai S, Bao C, Miao Y, Yuan Z, Borzda T, Barker A J, Tyukalova E, Hu Z, Kawecki M, Wang H, Yan Z, Liu X, Shi X, Uvdal K, Fahlman M, Zhang W, Duchamp M, Liu J M, Petrozza A, Wang J, Liu L M, Huang W, Gao F. Rational molecular passivation for high-performance perovskite light-emitting diodes. Nature Photonics, 2019, 13(6): 418–424

[20] Meredith P, Armin A. LED technology breaks performance barrier. Nature, 2018, 562(7726): 197–198

[21] Service R F. Perovskite LEDs begin to shine. Science, 2019, 364 (6444): 918

[22] Quan L N, García de Arquer F P, Sabatini R P, Sargent E H. Perovskites for light emission. Advanced Materials, 2018, 30(45): 1801996

[23] Xie L, Song P, Shen L, Lu J, Liu K, Lin K, Feng W, Tian C, Wei Z. Revealing the compositional effect on the intrinsic long-term stability of perovskite solar cells. Journal of Materials Chemistry A, 2020, 8(16): 7653–7658

[24] Kanwat A, Choi W C, Seth S, Jang J. Doping and photon induced defect healing of hybrid perovskite thin films: an approach towards efficient light emitting diodes. ChemNanoMat: Chemistry of Nanomaterials for Energy, Biology and More, 2019, 5(5): 666–673

[25] Xu Z, Liu Z, Li N, Tang G, Zheng G, Zhu C, Chen Y, Wang L, Huang Y, Li L, Zhou N, Hong J, Chen Q, Zhou H. A thermodynamically favored crystal orientation in mixed formamidinium/ methylammonium perovskite for efficient solar cells. Advanced Materials, 2019, 31(24): 1900390

[26] Si J, Liu Y, Wang N, Xu M, Li J, He H, Wang J, Jin Y. Green lightemitting diodes based on hybrid perovskite films with mixed cesium and methylammonium cations. Nano Research, 2017, 10(4): 1329– 1335

[27] Yang X, Chu Z, Meng J, Yin Z, Zhang X, Deng J, You J. Effects of organic cations on the structure and performance of quasi-twodimensional perovskite based light-emitting diodes. Journal of Physical Chemistry Letters, 2019, 10(11): 2892–2897

[28] Prakasam V, Di Giacomo F, Abbel R, Tordera D, Sessolo M, Gelinck G, Bolink H J. Efficient perovskite light-emitting diodes: Effect of composition, morphology, and transport layers. ACS Applied Materials & Interfaces, 2018, 10(48): 41586–41591

[29] Naphade R, Zhao B, Richter J M, Booker E, Krishnamurthy S, Friend R H, Sadhanala A, Ogale S. High quality hybrid perovskite semiconductor thin films with remarkably enhanced luminescence and defect suppression via quaternary alkyl ammonium salt based treatment. Advanced Materials Interfaces, 2017, 4(19): 1700562

[30] Prasanna R, Gold-Parker A, Leijtens T, Conings B, Babayigit A, Boyen H G, Toney M F, McGehee M D. Band gap tuning via lattice contraction and octahedral tilting in perovskite materials for photovoltaics. Journal of the American Chemical Society, 2017, 139(32): 11117–11124

[31] Xie L, Lin K, Lu J, Feng W, Song P, Yan C, Liu K, Shen L, Tian C, Wei Z. Efficient and stable low-bandgap perovskite solar cells enabled by a CsPbBr3-cluster assisted bottom-up crystallization approach. Journal of the American Chemical Society, 2019, 141 (51): 20537–20546

[32] Min H, Kim M, Lee S U, Kim H, Kim G, Choi K, Lee J H, Seok S I. Efficient, stable solar cells by using inherent bandgap of α-phase formamidinium lead iodide. Science, 2019, 366(6466): 749–753.