AI Article Synopsis
- First-principles molecular dynamics (FPMD) is useful for studying the properties of metal-halide perovskites (MHPs), essential for optoelectronic applications.
- Most studies use generalized gradient approximation (GGA) functionals for efficiency, but hybrid functionals like PBE0 are needed for accurate results.
- FPMD simulations on CsPbI using PBE0 show better agreement with experimental data in terms of lattice parameters, electronic properties, and reveal important anharmonic effects in the material's behavior.
Article Abstract
First-principles molecular dynamics (FPMD) represents a valuable tool to probe dynamical properties of metal-halide perovskites (MHPs) which are key to their success in optoelectronic devices. Most FPMD studies rely on generalized gradient approximation (GGA) functionals for computational efficiency matters, while hybrid functionals, although computationally demanding, are usually needed to accurately describe structural and electronic properties of MHPs. This Letter reports FPMD simulations on CsPbI based on the hybrid PBE0 functional. Our results demonstrate that PBE0 leads to lattice parameters and phonon modes in excellent agreement with experimental data, while GGA results overestimate the lattice parameter and the electronic band gap and underestimate the phonon energies. Our FPMD results also shed light on anharmonic effects and double-well instabilities in the octahedral tilting, highlighting a lowered free energy barrier for PBE0 and farther separated potential wells. Our results suggest that hybrid functionals are required to accurately describe crystal structure, lattice dynamics, and anharmonicity in MHPs.
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| http://dx.doi.org/10.1021/acs.jpclett.1c03428 | DOI Listing |
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