Titel
Revealing the quasiparticle electronic and excitonic nature in cubic, tetragonal, and hexagonal phases of FAPbI3
Autor*in
Rashid Ahmad
Center for Computational Material Science, University of Malakand
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Abstract
The development of three-dimensional (3D) hybrid organic–inorganic perovskites has sparked much interest because of their rich light-harvesting capabilities in solar cells. However, the understanding of the electronic and optical properties, particularly the excitonic shifts upon structural phase transition with temperature in these materials, is not fully clear. Here, we report the accurate description of electronic and optical properties of mostly studied FAPbI3 across the cubic–tetragonal–hexagonal phases, using the relativistic GW method and Bethe–Salpeter Equation (BSE), including the spin–orbit coupling effects. Our GW calculations reveal that the bandgap values vary from 1.47 to 3.54 eV from the room temperature cubic phase to the low temperature hexagonal phase. Our optical analysis shows that excitonic peaks are blue-shifted, and exciton binding energies estimated by the model BSE approach increase from 74 to 567 meV going from the cubic to hexagonal phases. Our results may have important impacts on the practical uptake of hybrid perovskite based solar cells under different climatic conditions.
Stichwort
Density functional theorySpin-orbit interactionsExcitonsPhase transitionsElectronic band structurePerovskitesBethe-Salpeter equationGW-approximation
Objekt-Typ
Sprache
Englisch [eng]
Persistent identifier
phaidra.univie.ac.at/o:1659013
Erschienen in
Titel
AIP Advances
Band
12
Ausgabe
2
ISSN
2158-3226
Erscheinungsdatum
2022
Publication
AIP Publishing
Erscheinungsdatum
2022
Zugänglichkeit
Rechte
Rechteangabe
© 2022 Author(s)
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