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Title: Formation and Composition-Dependent Properties of Alloys of Cubic Halide Perovskites

Journal Article · · Chemistry of Materials
ORCiD logo [1]; ORCiD logo [2];  [2];  [2]
  1. Univ. of Colorado, Boulder, CO (United States); Univ. Federal do ABC, Santo André, São Paulo (Brazil). Centro de Ciências Naturais e Humanas
  2. Univ. of Colorado, Boulder, CO (United States)
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Distinct shortcomings of individual halide perovskites for solar applications, such as restricted range of band gaps, propensity of $$ABX_3$$ to decompose into $$AX + BX_2$$, or oxidation of 2$$ABX_3$$ into $$A_2BX_6$$, have led to the need to consider alloys of individual perovskites such as [FA,Cs][Pb,Sn][Br,I]3. This proposition creates a nontrivial material selection problem associated with a six-component structure, spanning a continuum of three sets of compositions (one for each sublattice) and requiring control of phase separation or ordering in each alloyed subfield. Not surprisingly, material and structure choices were made thus far mostly via trial-and-error explorations among a large number of arrangements. In this work, we use ideas from solid-state theory of semiconductor alloys to analyze the behaviors of the canonical [FA,Cs][Pb,Sn]I3 alloy system, where FA is formamidinium. Density functional calculations utilizing specially constructed supercells are used to calculate the composition dependence of band gaps, energy of decomposition, and alloy mixing enthalpies. A number of clear trends are observed for A-site alloys [Cs,FA]SnI3 and [Cs,FA]PbI3, as well as for B-site alloys Cs[Sn,Pb]I3 and FA[Sn,Pb]I3. To understand the physical reasons that control these trends, we decompose the alloy properties into distinct physical terms: (i) the energies associated with removing the octahedral deformations (tilting, rotations, B-site displacements) of the individual components, (ii) the energies for compressing the larger component and expanding the smaller one to the alloy volume V(x), (iii) the charge-transfer energies associated with placing the alloyed units onto a common lattice, and finally, (iv) structural relaxation of all bonds within the cells. This analysis clarifies the origin of the observed trends in band gaps, decomposition energies, and mixing enthalpies. Unlike a number of previous calculations, we find that the proper description of alloy physics requires that even the pure, nonalloyed, end-point compounds need to be allowed to develop local environment-dependent octahedral deformation that lowers significantly the total energy and raises their band gaps.

Research Organization:
Lawrence Berkeley National Lab. (LBNL), Berkeley, CA (United States). National Energy Research Scientific Computing Center (NERSC)
Sponsoring Organization:
USDOE Office of Energy Efficiency and Renewable Energy (EERE), Renewable Power Office. Solar Energy Technologies Office; USDOE Office of Science (SC)
Contributing Organization:
National Renewable Energy Lab. (NREL), Golden, CO (United States)
Grant/Contract Number:
EE-00081531; AC02-05CH11231
OSTI ID:
1529365
Journal Information:
Chemistry of Materials, Vol. 31, Issue 7; ISSN 0897-4756
Publisher:
American Chemical Society (ACS)Copyright Statement
Country of Publication:
United States
Language:
English
Citation Metrics:
Cited by: 38 works
Citation information provided by
Web of Science

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  • Lee, Byunghong; Stoumpos, Constantinos C.; Zhou, Nanjia
  • Journal of the American Chemical Society, Vol. 136, Issue 43, p. 15379-15385 https://doi.org/10.1021/ja508464w
journal October 2014
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A Review on Energy Band‐Gap Engineering for Perovskite Photovoltaics journal December 2019
A Review on Energy Band‐Gap Engineering for Perovskite Photovoltaics journal September 2019

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