Optoelectronic Study of (MA)$_2$NaBiX$_6$ (MA= methylammonium; X=Cl,Br, I) Hybrid Double Perovskites by Ab initio Simulation Article Swipe

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Ab initio Iodide Band gap Perovskite (structure) Bromide Dielectric Materials science Attenuation coefficient Ab initio quantum chemistry methods Optoelectronics Absorption (acoustics) Refractive index Analytical Chemistry (journal) Chemistry Crystallography Inorganic chemistry Optics Physics Molecule Organic chemistry Chromatography Composite material

Andrew Johnson , T. J. Ikyumbur , F. Gbaorun ·

YOU? · · 2023 · Open Access · · DOI: https://doi.org/10.48550/arxiv.2306.06417 · OA: W4380551546

High prospects for different optoelectronic applications have drawn much effort towards hybrid double perovskites for the commercialization of environmentally friendly Pb-free non-toxic perovskites. Herein, the optoelectronic study of (MA)$_2$NaBiX$_6$ (MA= methylammonium; X=Cl,Br, I) hybrid double perovskites by ab initio simulation was investigated. (MA)$_2$NaBiBr$_6$ and (MA)$_2$NaBiCl$_6$ have indirect X-M bandgaps while (MA)$_2$NaBiI$_6$ have indirect X-$Γ$ bandgap of 2.98 eV, 3.64 eV and 2.32 eV respectively. The results also show that the iodide-based compound, (MA)$_2$NaBiI$_6$ exhibits superior optoelectronic properties compared to the bromide and chloride-based compounds, (MA)$_2$NaBiBr$_6$ and (MA)$_2$NaBiCl$_6$. These findings indicate that the (MA)$_2$NaBiI$_6$ hybrid double perovskite is a potential material for optoelectronic applications owing to its high absorption coefficient (on the order of 106cm-1), dielectric constant ($\approx 3.34$), and refractive index (2.50) in addition to its high formation energy, which shows its stability.