New Phase Transitions Driven by Soft Phonon Modes for CsPbBr<sub>3</sub>: Density Functional Theory Study

Sadok, Raouia Ben; Hammoutène, Dalila; Plugaru, N.

doi:10.1002/pssb.202000289

Cited by 7 publications

(2 citation statements)

References 54 publications

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“…The phonon dispersion curves obtained from density functional theory and Wannier interpolation were shown in figure 4, and some soft modes could be observed on cubic halide perovskites, which indicated that they were thermodynamically unstable. Cubic perovskite was stable at high temperature and unstable at low temperature, which had been reported in previous investigation [74][75][76]. Since the mobility was mainly determined by optical phonons with highfrequency, these soft modes would not greatly affect the mobility results.…”

Section: Accuracy Of the Wannier-interpolationsupporting

confidence: 67%

Biaxial strain improving carrier mobility for inorganic perovskite: ab initio Boltzmann transport equation

Cao¹,

Su²,

Song³

et al. 2022

J. Phys.: Condens. Matter

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Inorganic halide perovskites have attracted interest due to their high efficiency and low cost. Considering the uncertainty of ex perimental measurements, it was important to predict the upper limit of carrier mobility. In this study, the ab initio Boltzmann transport equation (BTE), including all electron-phonon interactions, was used to accurately predict the mobilities of CsPbI3, CsSnI3, CsPbBr3, and CsSnBr3. Using the iterative Boltzmann transport equation (IBTE), the calculated mobility for CsPbI3 is µe=512/µh=379 cm2V −1 s −1 , and Sn-based perovskite exhibited high hole mobility. The longitudinal optical phonons associated with the stretching between halogen anions and divalent metal cations were revealed to be the dominant scattering source for the carriers. Furthermore, the effect of biaxial strain on mobility was investigated. We observed that biaxial compressive strain could improve the mobility of CsPbI3 and CsPbBr3. Surprisingly, under a compressive strain of -2%, the mobilities of CsPbI3 using IBTE approach were improved to µe=1176/µh=936 cm2V −1 s −1 . It was revealed that the compressive strain could decrease the effective mass of CsPbI3 and CsPbBr3.

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Section: Accuracy Of the Wannier-interpolationsupporting

confidence: 67%

Biaxial strain improving carrier mobility for inorganic perovskite: ab initio Boltzmann transport equation

Cao¹,

Su²,

Song³

et al. 2022

J. Phys.: Condens. Matter

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show abstract

“…Here, we employ macroscopic measured properties to optimize the Landau parameters in the FE-MPF model, and we implicitly assume that the experimentally observed phase is the thermodynamically stable phase at the temperature of interest. Ab initio phonon calculations and stability analyses would validate these assumptions or reveal other more stable states [75]. This approach was out-of-scope of the current study, but future ab initio-derived data should be utilised in parameter optimization.…”

Section: Symbolmentioning

confidence: 95%

Physics-based optimization of Landau parameters for ferroelectrics: application to BZT–50BCT

Oa¹,

Bishop²,

Garcı́a³

2021

Modelling Simul. Mater. Sci. Eng.

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In analogy to thermochemical parameter optimization in the CALculation of PHAse Diagrams (CALPHAD) approach that relies on a wide variety of experimental measurements, a thermodynamic parameter optimization strategy to describe the polarization response with single-crystal Landau coefficients is documented herein to bridge the gap between CALPHAD, Landau theory and the generality of phase field theory.As an example, anisotropic Landau coefficients are obtained by starting from experimental parameters for Pb-free 0.5Ba(Zr 0.2 Ti 0.8 )O 3 -0.5(Ba 0.7 Ca 0.3 )TiO 3 (BZT-50BCT). Thermodynamic parameters are optimized separately for the rhombohedral (R) and tetragonal (T) ferroelectric phases using a combination of single-crystal and polycrystalline polarization and permittivity data. Parameters are validated against dielectric permittivity as a function of temperature from single-crystal and polycrystalline samples. The optimized parameters correctly predict the sequence of phase transitions as a function of temperature and the paraelectric-ferroelectric transition at 355.5 K is within the experimentally reported range. An upper thermodynamic limit is predicted for R + T metastable coexistence at 302.3 K in agreement with the experimentally measured transition to a stable single T phase for this chemistry at 302 K. The detailed parameter optimization procedure enables the identification of single-crystal tensor properties from experimental measurements for a wide variety of chemistries.

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Pressure-driven ferroelectric phase transition for the Pnma-CsPbBr3: Mechanical and dynamical stability study

Sadok

Múñoz

Rodríguez-Hernández

et al. 2022

Journal of Solid State Chemistry

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New Phase Transitions Driven by Soft Phonon Modes for CsPbBr₃: Density Functional Theory Study

Cited by 7 publications

References 54 publications

Biaxial strain improving carrier mobility for inorganic perovskite: ab initio Boltzmann transport equation

Biaxial strain improving carrier mobility for inorganic perovskite: ab initio Boltzmann transport equation

Physics-based optimization of Landau parameters for ferroelectrics: application to BZT–50BCT

Pressure-driven ferroelectric phase transition for the Pnma-CsPbBr3: Mechanical and dynamical stability study

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New Phase Transitions Driven by Soft Phonon Modes for CsPbBr3: Density Functional Theory Study

Cited by 7 publications

References 54 publications

Biaxial strain improving carrier mobility for inorganic perovskite: ab initio Boltzmann transport equation

Biaxial strain improving carrier mobility for inorganic perovskite: ab initio Boltzmann transport equation

Physics-based optimization of Landau parameters for ferroelectrics: application to BZT–50BCT

Pressure-driven ferroelectric phase transition for the Pnma-CsPbBr3: Mechanical and dynamical stability study

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New Phase Transitions Driven by Soft Phonon Modes for CsPbBr₃: Density Functional Theory Study