Issue 2, 2019

Lattice strain causes non-radiative losses in halide perovskites

Abstract

Halide perovskites are promising semiconductors for inexpensive, high-performance optoelectronics. Despite a remarkable defect tolerance compared to conventional semiconductors, perovskite thin films still show substantial microscale heterogeneity in key properties such as luminescence efficiency and device performance. However, the origin of the variations remains a topic of debate, and a precise understanding is critical to the rational design of defect management strategies. Through a multi-scale investigation – combining correlative synchrotron scanning X-ray diffraction and time-resolved photoluminescence measurements on the same scan area – we reveal that lattice strain is directly associated with enhanced defect concentrations and non-radiative recombination. The strain patterns have a complex heterogeneity across multiple length scales. We propose that strain arises during the film growth and crystallization and provides a driving force for defect formation. Our work sheds new light on the presence and influence of structural defects in halide perovskites, revealing new pathways to manage defects and eliminate losses.

Graphical abstract: Lattice strain causes non-radiative losses in halide perovskites

Supplementary files

Article information

Article type
Communication
Submitted
19 Sept. 2018
Accepted
15 Janv. 2019
First published
15 Janv. 2019
This article is Open Access
Creative Commons BY license

Energy Environ. Sci., 2019,12, 596-606

Lattice strain causes non-radiative losses in halide perovskites

T. W. Jones, A. Osherov, M. Alsari, M. Sponseller, B. C. Duck, Y. Jung, C. Settens, F. Niroui, R. Brenes, C. V. Stan, Y. Li, M. Abdi-Jalebi, N. Tamura, J. E. Macdonald, M. Burghammer, R. H. Friend, V. Bulović, A. Walsh, G. J. Wilson, S. Lilliu and S. D. Stranks, Energy Environ. Sci., 2019, 12, 596 DOI: 10.1039/C8EE02751J

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