Temperature-dependent photoluminescence of lead-free cesium tin halide perovskite microplates  

作　　者：谭佳雨 周译玄 卢德 冯旭坤 刘玉琪 张蒙恩 卢方正一 黄媛媛 徐新龙 Jiayu Tan;Yixuan Zhou;De Lu;Xukun Feng;Yuqi Liu;Mengen Zhang;Fangzhengyi Lu;Yuanyuan Huang;Xinlong Xu(Shaanxi Joint Laboratory of Graphene,State Key Laboratory of Photon-Technology in Western China Energy,International Collaborative Center on Photoelectric Technology and Nano Functional Materials,Institute of Photonics&Photon-Technology,School of Physics,Northwest University,Xi’an 710069,China)

机构地区：[1]Shaanxi Joint Laboratory of Graphene,State Key Laboratory of Photon-Technology in Western China Energy,International Collaborative Center on Photoelectric Technology and Nano Functional Materials,Institute of Photonics&Photon-Technology,School of Physics,Northwest University,Xi’an 710069,China

出　　处：《Chinese Physics B》2023年第11期116-123,共8页中国物理B(英文版)

基　　金：Project supported by the National Natural Science Foundation of China (Grant Nos. 11974279, 12074311, 12004310, and 12261141662)。

摘　　要：Tin halide perovskites recently have attracted extensive research attention due to their similar electronic and band structures but non-toxicity compared with their lead analogues. In this work, we prepare high-quality CsSnX_(3)(X=Br,I) microplates with lateral sizes of around 1–4 μm by chemical vapor deposition and investigate their low-temperature photoluminescence(PL) properties. A remarkable splitting of PL peaks of the CsSnBr_(3)microplate is observed at low temperatures. Besides the possible structural phase transition at below 70 K, the multi-peak fittings using Gauss functions and the power-dependent saturation phenomenon suggest that the PL could also be influenced by the conversion from the emission of bound excitons into free excitons. With the increase of temperature, the peak position shows a blueshift tendency for CsSnI_(3), which is governed by thermal expansion. However, the peak position of the CsSnBr3microplate exhibits a transition from redshift to blueshift at ~160 K. The full width at half maximum of CsSnX_(3)broadens with increasing temperature, and the fitting results imply that longitudinal optical phonons dominate the electron–phonon coupling and the coupling strength is much more robust in CsSnBr3than in CsSnI_(3). The PL intensity of CsSnX_(3)microplates is suppressed due to the enhanced non-radiative relaxation and exciton dissociation competing with radiative recombination. According to the Arrhenius law, the exciton binding energy of CsSnBr_(3)is ~38.4 meV, slightly smaller than that of CsSnI_(3).

关 键 词：cesium tin halide perovskite temperature-dependent photoluminescence chemical vapor deposi-tion MICROPLATE 

分 类 号：TB34[一般工业技术—材料科学与工程]