Ferroelectricity-free lead halide perovskites

Gómez A, Wang Q, Goñi AR, Campoy-Quiles M, Abate A (2019)
Energy & Environmental Science 12(8): 2537-2547.

Zeitschriftenaufsatz | Veröffentlicht | Englisch
 
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Autor*in
Gómez, Andrés; Wang, Qiong; Goñi, Alejandro R.; Campoy-Quiles, Mariano; Abate, AntonioUniBi
Abstract / Bemerkung
Direct piezoelectric force microscopy (DPFM) is employed to examine whether or not lead halide perovskites exhibit ferroelectricity. Compared to conventional piezoelectric force microscopy, DPFM is a novel technique capable of measuring piezoelectricity directly. This fact is fundamental to be able to examine the existence of ferroelectricity in lead halide perovskites, an issue that has been under debate for several years. DPFM is used to detect the current signals,i.e.changes in the charge distribution under the influence of the scan direction and applied force of the atomic force microscope (AFM) tip in contact mode. For comparison, (i) we use DPFM on lead halide perovskites and well-known ferroelectric materials (i.e.periodically poled lithium niobate and lead zirconate titanate); and (ii) we conduct parallel experiments on MAPbI3films of different grain sizes, film thicknesses, substrates, and textures using DPFM as well as piezoelectric force microscopy (PFM) and electrostatic force microscopy (EFM). In contrast to previous work that claimed there were ferroelectric domains in MAPbI3perovskite films, our work shows that the studied perovskite films Cs0.05(FA0.83MA0.17)0.95Pb(I0.83Br0.17)3and MAPbI3are ferroelectricity-free. The observed current profiles of lead halide perovskites possibly originate from ion migration that happens under an applied electrical bias and in strained samples under mechanical stress. This work provides a deeper understanding of the fundamental physical properties of the organic–inorganic lead halide perovskites and solves a longstanding dispute about their non-ferroelectric character: an issue of high relevance for optoelectronic and photovoltaic applications.
Erscheinungsjahr
2019
Zeitschriftentitel
Energy & Environmental Science
Band
12
Ausgabe
8
Seite(n)
2537-2547
ISSN
1754-5692
eISSN
1754-5706
Page URI
https://pub.uni-bielefeld.de/record/2978836

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Gómez A, Wang Q, Goñi AR, Campoy-Quiles M, Abate A. Ferroelectricity-free lead halide perovskites. Energy & Environmental Science. 2019;12(8):2537-2547.
Gómez, A., Wang, Q., Goñi, A. R., Campoy-Quiles, M., & Abate, A. (2019). Ferroelectricity-free lead halide perovskites. Energy & Environmental Science, 12(8), 2537-2547. https://doi.org/10.1039/C9EE00884E
Gómez, Andrés, Wang, Qiong, Goñi, Alejandro R., Campoy-Quiles, Mariano, and Abate, Antonio. 2019. “Ferroelectricity-free lead halide perovskites”. Energy & Environmental Science 12 (8): 2537-2547.
Gómez, A., Wang, Q., Goñi, A. R., Campoy-Quiles, M., and Abate, A. (2019). Ferroelectricity-free lead halide perovskites. Energy & Environmental Science 12, 2537-2547.
Gómez, A., et al., 2019. Ferroelectricity-free lead halide perovskites. Energy & Environmental Science, 12(8), p 2537-2547.
A. Gómez, et al., “Ferroelectricity-free lead halide perovskites”, Energy & Environmental Science, vol. 12, 2019, pp. 2537-2547.
Gómez, A., Wang, Q., Goñi, A.R., Campoy-Quiles, M., Abate, A.: Ferroelectricity-free lead halide perovskites. Energy & Environmental Science. 12, 2537-2547 (2019).
Gómez, Andrés, Wang, Qiong, Goñi, Alejandro R., Campoy-Quiles, Mariano, and Abate, Antonio. “Ferroelectricity-free lead halide perovskites”. Energy & Environmental Science 12.8 (2019): 2537-2547.
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