光致发光
材料科学
钙钛矿(结构)
凝聚态物理
八面体
结晶学
化学物理
点反射
晶体结构
化学
物理
光电子学
作者
Yan Shao,Wei Gao,Hejin Yan,Runlai Li,Ibrahim Abdelwahab,Xiao Chi,Lukas Rogée,Lyuchao Zhuang,Wei Fu,Shu Ping Lau,S. F. Yu,Yongqing Cai,Kian Ping Loh,Kai Leng
标识
DOI:10.1038/s41467-021-27747-x
摘要
Molecularly soft organic-inorganic hybrid perovskites are susceptible to dynamic instabilities of the lattice called octahedral tilt, which directly impacts their carrier transport and exciton-phonon coupling. Although the structural phase transitions associated with octahedral tilt has been extensively studied in 3D hybrid halide perovskites, its impact in hybrid 2D perovskites is not well understood. Here, we used scanning tunneling microscopy (STM) to directly visualize surface octahedral tilt in freshly exfoliated 2D Ruddlesden-Popper perovskites (RPPs) across the homologous series, whereby the steric hindrance imposed by long organic cations is unlocked by exfoliation. The experimentally determined octahedral tilts from n = 1 to n = 4 RPPs from STM images are found to agree very well with out-of-plane surface octahedral tilts predicted by density functional theory calculations. The surface-enhanced octahedral tilt is correlated to excitonic redshift observed in photoluminescence (PL), and it enhances inversion asymmetry normal to the direction of quantum well and promotes Rashba spin splitting for n > 1. The surface octahedral tilt in exfoliated 2D perovskites is directly visualized by STM and the degree of the tilt varies with the number of layers of inorganic slabs and result in different amounts of excitonic red shift in photoluminescence.
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