Effect of Eu Concentration on the Optical Properties of BaMgSiO4 Long Persisting Phosphorous Material

BMS (BaMgSiO 4 ) is a promising candidate for inorganic photochromatic materials with excellent opto-electronic properties. Because of its applications in high density optical memory and LEDs, the host matrix BMS has piqued the interest of academics all over the world. In this study, the generalized...

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Bibliographic Details
Published in:SILICON 2024-07, Vol.16 (10), p.4389-4396
Main Authors: Ullah, Arbab Z., Azam, Sikandar, Aamer, Muhammad, Guo, Xin, Khan, Wilayat, Rahaman, Mostafizur, Jawad, Muhammad, Ahmad, Hijaz
Format: Article
Language:English
Subjects:
Absorption spectra
Chemistry
Chemistry and Materials Science
Concentration gradient
Electronic properties
Electronic structure
Energy
Energy bands
Energy gap
Environmental Chemistry
Inorganic Chemistry
Lasers
Materials Science
Optical Devices
Optical memory (data storage)
Optical properties
Optics
Optoelectronics
Phosphides
Photonics
Photovoltaic cells
Polymer Sciences
Science
Solar cells
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Summary:BMS (BaMgSiO 4 ) is a promising candidate for inorganic photochromatic materials with excellent opto-electronic properties. Because of its applications in high density optical memory and LEDs, the host matrix BMS has piqued the interest of academics all over the world. In this study, the generalized gradient (GGA and GGA + U) approximations were used to examine the electronic structure and optical properties of BaMgSiO 4 :Eu, including dielectric function, refractive and extinction coefficients, the optical conductivity, reflectivity, and absorption spectra. It is found that the substitution of Eu ions has reduced the energy band gap of BaMgSiO 4 . Our findings show that the band gap and optical characteristics of BaMgSiO 4 compound are better described by GGA + U method. Future research can use this study as a guide, and it contributes to extending the capabilities of BaMgSiO 4 materials to optical applications. The results of this study suggest that phosphide semiconductors could be used in solar cells.
ISSN:1876-990X
1876-9918
DOI:10.1007/s12633-024-02957-2