Properties of Lead-Free Hybrid Organic-Inorganic Halide Perovskite CH3NH3BX3 Using Density Functional Theory

First principles calculations on structural, electronic and optical properties of the orthorhombic phase (No. 62: Pnma space group) lead-free Sn(II) hybrid halide perovskite CH3NH3SnI3 were systematically carried out. Work on Pb(II)-based CH3NH3PbI3 hybrid halide perovskite of the same space group i...

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Published inMaterials today : proceedings Vol. 4; no. 4; pp. 5154 - 5160
Main Authors Suhaili, N., Taib, M.F.M., Yaakob, M.K., Hassan, O.H., Yahya, M.Z.A.
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 2017
Subjects
Density Functional Theory
Electronic Properties
Lead-Free
Optical Properties
Electronic Properties
Lead-Free
Optical Properties
Density Functional Theory
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Abstract First principles calculations on structural, electronic and optical properties of the orthorhombic phase (No. 62: Pnma space group) lead-free Sn(II) hybrid halide perovskite CH3NH3SnI3 were systematically carried out. Work on Pb(II)-based CH3NH3PbI3 hybrid halide perovskite of the same space group is also included for comparative purposes. All calculations were performed using the local density approximation (LDA) and the generalized gradient approximation (GGA) schemes. The obtained lattice parameters and cell volumes are consistent with the available experimental data and other theoretical works. According to the electronic band structure, both of the semiconductor compounds have a direct band gap. A band gap of 0.935 eV yielded for CH3NH3SnI3 compound, which is smaller compared to CH3NH3PbI3 (1.721 eV). In addition, we found that the optical absorption spectrum of the hybrid halide perovskite is red shifted with the reduction of the electronic band gap.
AbstractList First principles calculations on structural, electronic and optical properties of the orthorhombic phase (No. 62: Pnma space group) lead-free Sn(II) hybrid halide perovskite CH3NH3SnI3 were systematically carried out. Work on Pb(II)-based CH3NH3PbI3 hybrid halide perovskite of the same space group is also included for comparative purposes. All calculations were performed using the local density approximation (LDA) and the generalized gradient approximation (GGA) schemes. The obtained lattice parameters and cell volumes are consistent with the available experimental data and other theoretical works. According to the electronic band structure, both of the semiconductor compounds have a direct band gap. A band gap of 0.935 eV yielded for CH3NH3SnI3 compound, which is smaller compared to CH3NH3PbI3 (1.721 eV). In addition, we found that the optical absorption spectrum of the hybrid halide perovskite is red shifted with the reduction of the electronic band gap.
Author Taib, M.F.M.
Hassan, O.H.
Yahya, M.Z.A.
Suhaili, N.
Yaakob, M.K.
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  organization: Faculty of Defence Science & Technology, Universiti Pertahanan Nasional Malaysia, 57000 Kuala Lumpur, Malaysia
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Lead-Free
Optical Properties
Density Functional Theory
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Snippet First principles calculations on structural, electronic and optical properties of the orthorhombic phase (No. 62: Pnma space group) lead-free Sn(II) hybrid...
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SubjectTerms Density Functional Theory
Electronic Properties
Lead-Free
Optical Properties
Title Properties of Lead-Free Hybrid Organic-Inorganic Halide Perovskite CH3NH3BX3 Using Density Functional Theory
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