Cesium-metalloid halide perovskites MBX3 (M1+= Cs; B2+= Si, Ge, Sn, Pb; X–= Cl, Br, I) as semiconductor photovoltaic materials for sustainable renewable-energy applications

Almeshal, Abdelkareem; H.-E, M. Musa Saad; Alsobhi, B. O.

doi:10.15251/jor.2023.191.113

Cited by 3 publications

(1 citation statement)

References 48 publications

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“…Scanning all the t factors of all the perovskite phases, t of the Pb-based perovskites are approximately higher than those of Sn-based phases possibly caused by the difference of ionic radii for Pb and Sn; the factors of cubic perovskites (S.G.: Pm m ) are all 1.000 already decided by the Goldschmidt formula, while t of tetragonal and orthorhombic phases are mostly around 0.9; in addition, the tolerance factors in the monoclinic structure are nearly lower than 1.0. All these classifications mentioned above are consistent with the reported general canons, although they are mainly available for such ABX 3 halide perovskites. γ-CsPbI 3 , δ-CsPbI 3 , CsPb 2 Cl 5 , and CsSnF 3 exhibit small t values, which is consistent with the structural characters.…”

Section: Resultssupporting

confidence: 89%

DFT Investigation of Structural Stability, Optical Properties, and PCE for All-Inorganic Cs_x(Pb/Sn)_yX_z Halide Perovskites

Zhang,

Lei,

You

et al. 2024

Inorg. Chem.

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Employing all-inorganic perovskites as light harvesters has recently drawn increasing attention owing to the strong-bonded inorganic components in the crystal. To achieve the systematic and comprehensive understanding for the structures and properties of Cs x (Pb/Sn) y X z (X = F, Cl, Br, I) perovskites, this work provides the comparison details about crystal structures, optical properties, electronic structures and power conversion efficiency (PCE) of 18 perovskites. The suitable band gaps are detected in CsSnCl3-Pm m (0.96 eV), γ-CsPbI3-Pnma (1.75 eV), and CsPbBr3-Pm m (1.78 eV), facilitating the conversion from absorbing photon energy to generating hole–electron pairs. γ-CsPbI3-Pnma and CsSnI3-P4/mbm show superior visible-absorption performance depending on their higher absorption coefficient (α); meanwhile, strong peaks can be observed in the real part (Re) of photoconductivity of CsPbBr3-Pbnm, γ-CsPbI3-Pnma, and CsSnI3-P4/mbm in the visible-light range, implying their better photoelectric conversion abilities. The perovskite/tungsten disulfide (WS2) heterojunctions are constructed to calculate the PCE. Although just the PCE result (14.43%) of CsSnI3-Pnma/WS2 is reluctantly competitive, the predictions of PCEs indicate that the PCE of PSCs (perovskite solar cells) can be improved by not only regulating the perovskite to upgrade its own performance but also designing the PSC structure reasonably including the selection of appropriate ETL/HTL (electron/hole transport layer), etc.

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Section: Resultssupporting

confidence: 89%

DFT Investigation of Structural Stability, Optical Properties, and PCE for All-Inorganic Cs_x(Pb/Sn)_yX_z Halide Perovskites

Zhang,

Lei,

You

et al. 2024

Inorg. Chem.

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Crystal structure and optoelectronic properties of Rb-based metal halide perovskites RbSiI3 and RbGeI3: GGA–PBE study

SAAD H-E,

KHAIRY,

SHIRGAWI

et al. 2024

Bull Mater Sci

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A (GGA+PBE) investigation of MGeBr3 (M = Rb, Cs, Fr) bromide perovskites: structural, electronic, and optical characteristics

Alsalmi,

Saad H.-E.

2024

DJNB

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First-principles DFT calculations by utilizing FP-LAPW under GGA+PBE method are performed to investigate the structural, electronic and optical characteristics of bromide perovskites MGeBr3 (M = Rb, Cs, Fr). It is found that the cubic structure (Pm-3m) and optimized lattice constants are in good agreement with the previous data. Our GGA+PBE results reveal that MGeBr3 show nonmagnetic semiconductor behavior with direct bandgap (Eg = 0.925 eV (M = Rb), 0.898 eV (M = Cs), 0.952 eV (M = Fr)) along the L–L symmetry direction. Formation energy, octahedral ration and tolerance factor for MGeBr3 have also been calculated. The 2-D charge densities confirm that the chemical bonds (Ge2+–Br- ) and (M+–Br- ) follow the covalent and ionic bonding types. Moreover, we have calculated and discussed the optical parameters, dielectric constants, absorption, conductivity and refractivity. The calculated electronic and optical properties show the narrow band-gap, high absorption and semiconductor nature making these inorganic materials suitable for optoelectronics applications.

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Cesium-metalloid halide perovskites MBX3 (M1+= Cs; B2+= Si, Ge, Sn, Pb; X–= Cl, Br, I) as semiconductor photovoltaic materials for sustainable renewable-energy applications

Cited by 3 publications

References 48 publications

DFT Investigation of Structural Stability, Optical Properties, and PCE for All-Inorganic Cs_x(Pb/Sn)_yX_z Halide Perovskites

DFT Investigation of Structural Stability, Optical Properties, and PCE for All-Inorganic Cs_x(Pb/Sn)_yX_z Halide Perovskites

Crystal structure and optoelectronic properties of Rb-based metal halide perovskites RbSiI3 and RbGeI3: GGA–PBE study

A (GGA+PBE) investigation of MGeBr3 (M = Rb, Cs, Fr) bromide perovskites: structural, electronic, and optical characteristics

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Cesium-metalloid halide perovskites MBX3 (M1+= Cs; B2+= Si, Ge, Sn, Pb; X–= Cl, Br, I) as semiconductor photovoltaic materials for sustainable renewable-energy applications

Cited by 3 publications

References 48 publications

DFT Investigation of Structural Stability, Optical Properties, and PCE for All-Inorganic Csx(Pb/Sn)yXz Halide Perovskites

DFT Investigation of Structural Stability, Optical Properties, and PCE for All-Inorganic Csx(Pb/Sn)yXz Halide Perovskites

Crystal structure and optoelectronic properties of Rb-based metal halide perovskites RbSiI3 and RbGeI3: GGA–PBE study

A (GGA+PBE) investigation of MGeBr3 (M = Rb, Cs, Fr) bromide perovskites: structural, electronic, and optical characteristics

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DFT Investigation of Structural Stability, Optical Properties, and PCE for All-Inorganic Cs_x(Pb/Sn)_yX_z Halide Perovskites

DFT Investigation of Structural Stability, Optical Properties, and PCE for All-Inorganic Cs_x(Pb/Sn)_yX_z Halide Perovskites