内电场操纵单卤化铅过氧化物纳米晶体中的激子-朋子耦合

IF 4.8 2区 化学 Q2 CHEMISTRY, PHYSICAL
Kenichi Cho, Hirokazu Tahara, Takumi Yamada, Mitsuki Muto, Masaki Saruyama, Ryota Sato, Toshiharu Teranishi, Yoshihiko Kanemitsu
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引用次数: 0

摘要

卤化铅过氧化物纳米晶体(NCs)作为发光二极管和量子光源的材料备受关注。要获得窄发射线、弱声子边带光致发光(PL)和长激子相干时间,就必须深入了解激子-声子耦合,这对于高色纯量子光源的应用尤其有用。在此,我们报告了单个 CsPbBr3 NCs 在 5.5 K 下的 PL 光谱与外加电场的函数关系。激子峰值能量在正负偏压下呈现非对称抛物线偏移,这意味着在未施加电场时,NCs 中存在自发产生的内部电场。在较小的 NC 中,内电场和激子-声子耦合都会变大,而且它们之间存在正相关。我们的研究结果表明,激子-声子耦合可以通过电场来操纵,而电场主导着包晶NC的聚光特性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Internal Electric Field Manipulates Exciton–Phonon Couplings in Single Lead Halide Perovskite Nanocrystals

Internal Electric Field Manipulates Exciton–Phonon Couplings in Single Lead Halide Perovskite Nanocrystals
Lead halide perovskite nanocrystals (NCs) have attracted much attention as materials for light-emitting diodes and quantum light sources. A deep understanding of exciton–phonon couplings is essential for obtaining a narrow emission line, weak phonon-sideband photoluminescence (PL), and a long exciton coherence time, which are especially useful for high-color-purity quantum-light-source applications. Here, we report the PL spectra of single CsPbBr3 NCs at 5.5 K as a function of the applied electric field. The exciton peak energy shows an asymmetric parabolic shift for positive and negative biases, implying the presence of a spontaneously generated internal electric field in the NCs when no field is applied. Both the internal electric field and exciton–phonon couplings become larger in smaller NCs, and they have a positive correlation with each other. Our findings show that the exciton–phonon couplings can be manipulated with an electric field, which dominates the PL properties of perovskite NCs.
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来源期刊
The Journal of Physical Chemistry Letters
The Journal of Physical Chemistry Letters CHEMISTRY, PHYSICAL-NANOSCIENCE & NANOTECHNOLOGY
CiteScore
9.60
自引率
7.00%
发文量
1519
审稿时长
1.6 months
期刊介绍: The Journal of Physical Chemistry (JPC) Letters is devoted to reporting new and original experimental and theoretical basic research of interest to physical chemists, biophysical chemists, chemical physicists, physicists, material scientists, and engineers. An important criterion for acceptance is that the paper reports a significant scientific advance and/or physical insight such that rapid publication is essential. Two issues of JPC Letters are published each month.
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