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Revealing the impact of organic spacers and cavity cations on quasi-2D perovskites via computational simulations

Diego Guedes‐Sobrinho, Danilo Neves Silveira, Luis Octávio de Araújo, Jônatas Favotto Dalmedico, Wolfgang Wenzel, Yohanes Pramudya, Maurício J. Piotrowski, Celso R. C. Rêgo

2023Scientific Reports12 citationsDOIOpen Access PDF

Abstract

Two-dimensional hybrid lead iodide perovskites based on methylammonium (MA) cation and butylammonium (BA) organic spacer-such as [Formula: see text]-are one of the most explored 2D hybrid perovskites in recent years. Correlating the atomistic profile of these systems with their optoelectronic properties is a challenge for theoretical approaches. Here, we employed first-principles calculations via density functional theory to show how the cation partially canceled dipole moments through the [Formula: see text] terminal impact the structural/electronic properties of the [Formula: see text] sublattices. Even though it is known that at high temperatures, the organic cation assumes a spherical-like configuration due to the rotation of the cations inside the cage, our results discuss the correct relative orientation according to the dipole moments for ab initio simulations at 0 K, correlating well structural and electronic properties with experiments. Based on the combination of relativistic quasiparticle correction and spin-orbit coupling, we found that the MA horizontal-like configuration concerning the inorganic sublattice surface leads to the best relationship between calculated and experimental gap energy throughout n = 1, 2, 3, 4, and 5 number of layers. Conversely, the dipole moments cancellation (as in BA-MA aligned-like configuration) promotes the closing of the gap energies through an electron depletion mechanism. We found that the anisotropy [Formula: see text] isotropy optical absorption conversion (as a bulk convergence) is achieved only for the MA horizontal-like configuration, which suggests that this configuration contribution is the majority in a scenario under temperature effects.

Topics & Concepts

DipoleDensity functional theoryHybrid functionalAnisotropyAb initioQuasiparticleIsotropyElectronic structureCoupling (piping)PhysicsCondensed matter physicsMolecular physicsChemistryAb initio quantum chemistry methodsChemical physicsMaterials scienceComputational chemistryQuantum mechanicsMoleculeMetallurgySuperconductivityPerovskite Materials and ApplicationsAdvanced Condensed Matter PhysicsElectronic and Structural Properties of Oxides
Revealing the impact of organic spacers and cavity cations on quasi-2D perovskites via computational simulations | Litcius