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Long-range exciton transport and slow annihilation in two-dimensional hybrid perovskites

Shibin Deng, Enzheng Shi, Long Yuan, Linrui Jin, Letian Dou and Libai Huang ()
Additional contact information
Shibin Deng: Purdue University
Enzheng Shi: Purdue University
Long Yuan: Purdue University
Linrui Jin: Purdue University
Letian Dou: Purdue University
Libai Huang: Purdue University

Nature Communications, 2020, vol. 11, issue 1, 1-8

Abstract: Abstract Two-dimensional hybrid organic-inorganic perovskites with strongly bound excitons and tunable structures are desirable for optoelectronic applications. Exciton transport and annihilation are two key processes in determining device efficiencies; however, a thorough understanding of these processes is hindered by that annihilation rates are often convoluted with exciton diffusion constants. Here we employ transient absorption microscopy to disentangle quantum-well-thickness-dependent exciton diffusion and annihilation in two-dimensional perovskites, unraveling the key role of electron-hole interactions and dielectric screening. The exciton diffusion constant is found to increase with quantum-well thickness, ranging from 0.06 ± 0.03 to 0.34 ± 0.03 cm2 s−1, which leads to long-range exciton diffusion over hundreds of nanometers. The exciton annihilation rates are more than one order of magnitude lower than those found in the monolayers of transition metal dichalcogenides. The combination of long-range exciton transport and slow annihilation highlights the unique attributes of two-dimensional perovskites as an exciting class of optoelectronic materials.

Date: 2020
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DOI: 10.1038/s41467-020-14403-z

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