Issue 35, 2020

Self-trap-state-adjustable photoluminescence of quasi-one-dimensional RbPbI3 and Cs substitutional counterparts

Abstract

The “self-trap state” in low demensional halide perovskites usually induces highly efficient below-gap broadband luminescence, which makes them promising fluorescence emitting materials. However, the luminescence mechanism based on the “self-trap state” is not well understood as yet. In this work, solution-grown quasi-one-dimensional RbPbI3 crystals reveal a large Stokes shift of ∼0.57 eV, wide and strong luminescence, and a linear power-dependent luminescence, whose luminescence mechanism was attributed to the formation of a “self-trap state” in RbPbI3. Furthermore, Cs substitutional counterpart (RbxCs1−x)PbI3 crystals were found to adjust the distortions of the PbI6 octahedron and the self-trap-state-induced luminescence properties. Our work provides a new strategy to control the “self-trap-state”-induced luminescence in low demensional halide perovskite materials.

Graphical abstract: Self-trap-state-adjustable photoluminescence of quasi-one-dimensional RbPbI3 and Cs substitutional counterparts

Supplementary files

Article information

Article type
Paper
Submitted
20 Jun 2020
Accepted
29 Jul 2020
First published
30 Jul 2020

J. Mater. Chem. C, 2020,8, 12108-12112

Self-trap-state-adjustable photoluminescence of quasi-one-dimensional RbPbI3 and Cs substitutional counterparts

B. Zhang, F. Wang, B. Xiao, Y. Xu, K. Gao and W. Jie, J. Mater. Chem. C, 2020, 8, 12108 DOI: 10.1039/D0TC02923H

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