Martynas Kinka scite author profile

Cation engineering provides a route to control the structure and properties of hybrid halide perovskites, which has resulted in the highest performance solar cells based on mixtures of Cs, methylammonium, and formamidinium. Here, we present a multi-technique experimental and theoretical study of structural phase transitions, structural phases and dipolar dynamics in the mixed methylammonium/dimethylammonium MA1-xDMAxPbBr3 hybrid perovskites (0 ≤ x ≤ 1). Our results demonstrate a significant suppression of the structural phase transitions, enhanced disorder and stabilization of the cubic phase even for a small amount of dimethylammonium cations. As the dimethylammonium concentration approaches the solubility limit in MAPbBr3, we observe the disappearance of the structural phase transitions and indications of a glassy dipolar phase. We also reveal a significant tunability of the dielectric permittivity upon mixing of the molecular cations that arises from frustrated electric dipoles.

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Phase Diagram and Cation Dynamics of Mixed MA_1–xFA_xPbBr₃ Hybrid Perovskites

Šimėnas

Balčiu̅nas

Svirskas

et al. 2021

Chem. Mater.

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Mixing of molecular cations enhances the optoelectronic properties and stability of hybrid lead halide perovskites. Here, we use a multitechnique approach to determine the phase diagram and molecular cation dynamics of mixed methylammonium-formamidinium MA1–x FA x PbBr3 (0 ≤ x ≤ 1) hybrid perovskites. The calorimetric, ultrasonic, and X-ray diffraction experiments show a substantial suppression of the structural phase transitions and stabilization of the cubic phase upon mixing. We use the broad-band dielectric and Raman spectroscopies to study the MA and FA cation dynamics in these compounds. The broad-band dielectric spectroscopy indicates the absence of the MA cation ordering and a gradual increase of the rotation barrier upon mixing. The room-temperature dielectric permittivity substantially decreases as the fraction of the FA cations is increased. No significant changes of the permittivity are detected at temperatures, where the dielectric relaxations are absent. We also observe weak signatures of a dipolar glass phase for the intermediate mixing levels. The Raman spectroscopy supports the dielectric results and reveals additional subtle information about the FA cation dynamics.

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Phase transitions, screening and dielectric response of CsPbBr₃

et al. 2020

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High-temperature properties of lithium tetraborate Li₂B₄O₇

Senyshyn¹,

Boysen²,

Niewa³

et al. 2012

J. Phys. D: Appl. Phys.

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High-temperature coherent neutron powder diffraction experiments were carried out on Li2B4O7 with boron isotope ratio 11B : 10B as high as 99.6 : 0.4%. Neither traces of phase transformations nor discontinuous changes of physical properties were observed. Anomalies in the thermal expansion of lithium tetraborate were considered in terms of first-order Grüneisen approximation. Extended bond length analysis revealed significant modifications of the boron–oxygen framework which is supplemented by dynamic lithium disorder. Impedance spectroscopy studies revealed a complicated conduction mechanism in single crystalline lithium tetraborate. The lithium diffusion pathway for bulk conductivity along the polar axis was established using both maximum entropy and anharmonic refinement techniques.

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Mixology of MA_1–xEA_xPbI₃ Hybrid Perovskites: Phase Transitions, Cation Dynamics, and Photoluminescence

et al. 2022

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Mixing molecular cations in hybrid lead halide perovskites is a highly effective approach to enhance the stability and performance of optoelectronic devices based on these compounds. In this work, we prepare and study novel mixed 3D methylammonium (MA)−ethylammonium (EA) MA 1−x EA x PbI 3 (x < 0.4) hybrid perovskites. We use a suite of different techniques to determine the structural phase diagram, cation dynamics, and photoluminescence properties of these compounds. Upon introduction of EA, we observe a gradual lowering of the phase-transition temperatures, indicating stabilization of the cubic phase. For mixing levels higher than 30%, we obtain a complete suppression of the low-temperature phase transition and formation of a new tetragonal phase with a different symmetry. We use broad-band dielectric spectroscopy to study the dielectric response of the mixed compounds in an extensive frequency range, which allows us to distinguish and characterize three distinct dipolar relaxation processes related to the molecular cation dynamics. We observe that mixing increases the rotation barrier of the MA cations and tunes the dielectric permittivity values. For the highest mixing levels, we observe the signatures of the dipolar glass phase formation. Our findings are supported by density functional theory calculations. Our photoluminescence measurements reveal a small change of the band gap upon mixing, indicating the suitability of these compounds for optoelectronic applications.

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Martynas Kinka

Suppression of phase transitions and glass phase signatures in mixed cation halide perovskites

Phase Diagram and Cation Dynamics of Mixed MA_1–xFA_xPbBr₃ Hybrid Perovskites

Phase transitions, screening and dielectric response of CsPbBr₃

High-temperature properties of lithium tetraborate Li₂B₄O₇

Mixology of MA_1–xEA_xPbI₃ Hybrid Perovskites: Phase Transitions, Cation Dynamics, and Photoluminescence

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Martynas Kinka

Suppression of phase transitions and glass phase signatures in mixed cation halide perovskites

Phase Diagram and Cation Dynamics of Mixed MA1–xFAxPbBr3 Hybrid Perovskites

Phase transitions, screening and dielectric response of CsPbBr3

High-temperature properties of lithium tetraborate Li2B4O7

Mixology of MA1–xEAxPbI3 Hybrid Perovskites: Phase Transitions, Cation Dynamics, and Photoluminescence

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Phase Diagram and Cation Dynamics of Mixed MA_1–xFA_xPbBr₃ Hybrid Perovskites

Phase transitions, screening and dielectric response of CsPbBr₃

High-temperature properties of lithium tetraborate Li₂B₄O₇

Mixology of MA_1–xEA_xPbI₃ Hybrid Perovskites: Phase Transitions, Cation Dynamics, and Photoluminescence