First-principles calculations to investigate the structural, electronic and optical properties of lead-free double perovskites Rb2SeI6 and K2SeI6

•The band gap values of Rb2SeI6 and K2SeI6 are 1.51 eV and 1.45 eV, respectively, which are very suitable for use as photosensitive materials of solar cells.•The optical parameters indicate that Rb2SeI6 and K2SeI6 have better light absorption characteristics than most lead-free perovskite materials,...

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Bibliographic Details
Published inSolar energy Vol. 231; pp. 236 - 242
Main Authors Hu, De-Yuan, Zhao, Xian-Hao, Tang, Tian-Yu, Lu, Li-Min, Li, Li, Gao, Li-Ke, Tang, Yan-Lin
Format Journal Article
LanguageEnglish
Published New York Elsevier Ltd 01.01.2022
Pergamon Press Inc
Subjects
Absorption
Carrier transport
Conduction bands
Electromagnetic absorption
Electronic structure
Electronics industry
Energy gap
First principles
Free energy
Heat of formation
Lead free
Mathematical analysis
Optical properties
Orbitals
Perovskites
Photosensitivity
Photovoltaic cells
Solar cells
Solar energy
Structural stability
Valence band
Electronic structure
Structural stability
Optical properties
First-principles
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Summary:•The band gap values of Rb2SeI6 and K2SeI6 are 1.51 eV and 1.45 eV, respectively, which are very suitable for use as photosensitive materials of solar cells.•The optical parameters indicate that Rb2SeI6 and K2SeI6 have better light absorption characteristics than most lead-free perovskite materials, especially in the visible light range.•The effective mass of electrons and holes of Rb2SeI6 and K2SeI6 are much small than that of many perovskite materials. In this work, we have studied in detail the structural, electronic and optical properties of lead-free double perovskites Rb2SeI6 and K2SeI6 based on first-principles calculations. Their negative binding energy (Eb) and formation energy (Ef) ensure the stability of the studied materials. Our calculations give band gap values of Rb2SeI6 and K2SeI6 to be 1.51 eV and 1.45 eV, respectively. This illustrates that the two perovskite compounds belong to indirect band gap semiconductors, and are suitable for photosensitive materials of solar cells. For both Rb2SeI6 and K2SeI6, the valence band maximum (VBM) are dominated by the I-p orbitals, and their conduction band minimum (CBM) are mainly contributed from the I-p orbitals and the Se-p orbitals. The results indicate that the effective mass of electrons and holes in Rb2SeI6 and K2SeI6 is very small, and therefore they are favorable for carrier transport. Moreover, the optical parameters display that Rb2SeI6 and K2SeI6 have significant light absorption properties, especially in the visible light range. Due to the suitable band gap values and excellent light absorption, Rb2SeI6 and K2SeI6 have great application potential in the absorption layer of solar cells.
ISSN:0038-092X
1471-1257
DOI:10.1016/j.solener.2021.11.062