Highly efficient and stable Ra2LaNbO6 double perovskite for energy conversion device applications

被引:0
|
作者
Bairwa, Jitendra Kumar [1 ]
Kamlesh, Peeyush Kumar [2 ]
Rani, Upasana [6 ]
Singh, Rashmi [3 ]
Gupta, Rajeev [4 ]
Kumari, Sarita [1 ]
Kumar, Tanuj [5 ]
Verma, Ajay Singh [6 ]
机构
[1] Department of Physics, University of Rajasthan, Rajasthan, Jaipur,302004, India
[2] School of Basic and Applied Sciences, Nirwan University, Rajasthan, Jaipur,303305, India
[3] Department of Physics, Institute of Applied Sciences & Humanities, G. L. A. University, Mathura,281406, India
[4] Department of Physics, School of Engineering, University of Petroleum & Energy Studies, Dehradun,248007, India
[5] Department of Nanoscience and Materials, Central University of Jammu, Jammu,181143, India
[6] Division of Research & Innovation, School of Applied and Life Sciences, Uttaranchal University, Uttarakhand, Dehradun,284007, India
来源
Materials Science for Energy Technologies | 2024年 / 7卷
关键词
Conversion efficiency - Electromagnetic shielding - Electronic properties - Energy gap - Niobium compounds - Optical fibers - Perovskite - Perovskite solar cells - Solar power generation;
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摘要
Using first-principles calculations, in this piece of work, authors have investigated the physical properties of Ra2LaNbO6 double perovskite by employing the linearized augmented plane wave (LAPW) method. Structural and electronic properties are determined by using LDA, GGA (WC and PBE), LDA + mBJ, and GGA + mBJ potentials. We have found that Ra2LaNbO6 is an indirect band gap (Eg = 2.4 eV) semiconductor. Its elastic and thermodynamic parameters demonstrate its stability. Its optical study indicates that this material opens the door to its applications in optical devices such as photodetectors, solar cells, superlenses, optical fibers, filters, electromagnetic shielding devices, photovoltaic devices, etc. This material is very good for its practical implementation in thermoelectric devices as both p- and n-type material and extends the interest of experimentalists for further investigations. Thus, Ra2LaNbO6 is found thermodynamically stable and identified as a potential candidate for photovoltaic and thermoelectric devices. © 2023
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页码:61 / 72
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