Kojima, A., Teshima, Ok., Shirai, Y. & Miyasaka, T. Organometal halide perovskites as visible-light sensitizers for photovoltaic cells. J. Am. Chem. Soc. 131, 6050–6051 (2009).
Jiang, Q. et al. Floor response for environment friendly and secure inverted perovskite photo voltaic cells. Nature 611, 278–283 (2022).
Zhao, Y. et al. Inactive (PbI2)2RbCl stabilizes perovskite movies for environment friendly photo voltaic cells. Science 377, 531–534 (2022).
Zhou, Y. et al. Advances and challenges in understanding the microscopic construction–property–efficiency relationship in perovskite photo voltaic cells. Nat. Power 7, 794–807 (2022).
Min, H. et al. Environment friendly, secure photo voltaic cells by utilizing inherent bandgap of α-phase formamidinium lead iodide. Science 366, 749–753 (2019).
Koh, T. M. et al. Formamidinium-containing metal-halide: an alternate materials for near-IR absorption perovskite photo voltaic cells. J. Phys. Chem. C 118, 16458–16462 (2014).
Pellet, N. et al. Combined-organic-cation perovskite photovoltaics for enhanced solar-light harvesting. Angew. Chem. Int. Ed. 53, 3151–3157 (2014).
Zheng, X. et al. Improved section stability of formamidinium lead triiodide perovskite by pressure leisure. ACS Power Lett. 1, 1014–1020 (2016).
Wang, Y. et al. Unlocking the ambient temperature impact on FA-based perovskites crystallization by in situ optical methodology. Adv. Mater. 36, 2307635 (2023).
Li, Z. et al. Stabilizing perovskite buildings by tuning tolerance issue: formation of formamidinium and cesium lead iodide solid-state alloys. Chem. Mater. 28, 284–292 (2016).
Yi, C. et al. Entropic stabilization of blended A-cation ABX3 steel halide perovskites for prime efficiency perovskite photo voltaic cells. Power Environ. Sci. 9, 656–662 (2016).
Jacobsson, T. J. et al. Unreacted PbI2 as a double-edged sword for enhancing the efficiency of perovskite photo voltaic cells. J. Am. Chem. Soc. 138, 10331–10343 (2016).
Hao, M. et al. Ligand-assisted cation-exchange engineering for high-efficiency colloidal Cs1−xFAxPbI3 quantum dot photo voltaic cells with lowered section segregation. Nat. Power 5, 79–88 (2020).
Liang, Z. et al. Homogenizing out-of-plane cation composition in perovskite photo voltaic cells. Nature 624, 557–563 (2023).
Bai, Y. et al. Initializing movie homogeneity to retard section segregation for secure perovskite photo voltaic cells. Science 378, 747–754 (2022).
Huang, J., Xu, P., Liu, J. & You, X.-Z. Sequential introduction of cations deriving large-grain CsxFA1−xPbI3 skinny movie for planar hybrid photo voltaic cells: perception into phase-segregation and thermal-healing habits. Small 13, 1603225 (2017).
Li, N. et al. Microscopic degradation in formamidinium-cesium lead iodide perovskite photo voltaic cells below operational stressors. Joule 4, 1743–1758 (2020).
Liu, L. et al. A-site section segregation in blended cation perovskite. Mater. Rep. Power 1, 100064 (2021).
Mullins, W. W. Idea of thermal grooving. J. Appl. Phys. 28, 333–339 (2004).
Zhao, B., Shvindlerman, L. & Gottstein, G. Line rigidity of grain boundary triple junctions within the copper tricrystals. In TMS 2014: 143rd Annual Assembly & Exhibition 1063–1068 (Springer, 2016).
Hao, M. et al. Flattening grain-boundary grooves for perovskite photo voltaic cells with excessive optomechanical reliability. Adv. Mater. 35, 2211155 (2023).
Yan, N., Fang, Z., Dai, Z., Feng, J. & Liu, S. Buried interface—the important thing points for prime efficiency inverted perovskite photo voltaic cells. Adv. Funct. Mater. 34, 2314039 (2024).
Dong, Q. et al. Interpenetrating interfaces for environment friendly perovskite photo voltaic cells with excessive operational stability and mechanical robustness. Nat. Commun. 12, 973 (2021).
Zhao, L. et al. Enabling full-scale grain boundary mitigation in polycrystalline perovskite solids. Sci. Adv. 8, eabo3733 (2022).
Hackl, Ok., Fischer, F. D. & Svoboda, J. A variational strategy to the modelling of grooving in a three-dimensional setting. Acta Mater. 129, 331–342 (2017).
Mullins, W. W. The impact of thermal grooving on grain boundary movement. Acta Metall. 6, 414–427 (1958).
Saylor, D. M. & Rohrer, G. S. Measuring the affect of grain‐boundary misorientation on thermal groove geometry in ceramic polycrystals. J. Am. Ceram. Soc. 82, 1529–1536 (1999).
Correa-Baena, J.-P. et al. Homogenized halides and alkali cation segregation in alloyed organic-inorganic perovskites. Science 363, 627–631 (2019).
Macpherson, S. et al. Native nanoscale section impurities are degradation websites in halide perovskites. Nature 607, 294–300 (2022).
Guthrey, H. & Moseley, J. A evaluation and perspective on cathodoluminescence evaluation of halide perovskites. Adv. Power Mater. 10, 1903840 (2020).
Taylor, E. J. et al. Hyperspectral mapping of nanoscale photophysics and degradation processes in hybrid perovskite on the single grain degree. Nanoscale Adv. 5, 4687–4695 (2023).
Yang, J. et al. Understanding the function of cesium on chemical complexity in methylammonium-free steel halide perovskites. Adv. Power Mater. 13, 2202880 (2023).
Chen, J. et al. Environment friendly and brilliant white light-emitting diodes based mostly on single-layer heterophase halide perovskites. Nat. Photon. 15, 238–244 (2021).
Ma, F. et al. Steady α/δ section junction of formamidinium lead iodide perovskites for enhanced near-infrared emission. Chem. Sci. 8, 800–805 (2017).
Lai, M. et al. Structural, optical, and electrical properties of phase-controlled cesium lead iodide nanowires. Nano Res. 10, 1107–1114 (2017).
Wang, P. et al. Seed-assisted progress of methylammonium-free perovskite for environment friendly inverted perovskite photo voltaic cells. Small Strategies 6, 2200048 (2022).
Chen, Y. et al. Pressure engineering and epitaxial stabilization of halide perovskites. Nature 577, 209–215 (2020).
Saidaminov, M. I. et al. Multi-cation perovskites forestall service reflection from grain surfaces. Nat. Mater. 19, 412–418 (2020).
Tao, S. et al. Absolute vitality degree positions in tin- and lead-based halide perovskites. Nat. Commun. 10, 2560 (2019).
Narra, S. et al. Femtosecond transient absorption spectra and dynamics of service leisure of tin perovskites within the absence and presence of components. J. Phys. Chem. Lett. 11, 5699–5704 (2020).
Yang, L. et al. Report-efficiency versatile perovskite photo voltaic cells enabled by multifunctional natural ions interface passivation. Adv. Mater. 34, 2201681 (2022).
Duan, T. et al. Chiral-structured heterointerfaces allow sturdy perovskite photo voltaic cells. Science 384, 878–884 (2024).
Ren, Y. et al. A spiro-OMeTAD based mostly semiconductor composite with over 100 °C glass transition temperature for sturdy perovskite photo voltaic cells. Nano Power 81, 105655 (2021).
Xiao, T. et al. Elimination of grain floor concavities for improved perovskite thin-film interfaces. Nat. Power 9, 999–1010 (2024).
Jiang, Q. et al. In direction of linking lab and area lifetimes of perovskite photo voltaic cells. Nature 623, 313–318 (2023).
Chen, Y. et al. Nuclei engineering for even halide distribution in secure perovskite/silicon tandem photo voltaic cells. Science 385, 554–560 (2024).
Zhao, B., Ziemons, A., Shvindlerman, L. S. & Gottstein, G. Floor topography and vitality of grain boundary triple junctions in copper tricrystals. Acta Mater. 60, 811–818 (2012).
