钙钛矿太阳能电池各器件组件和界面的DFT计算模型研究进展

Deepthi Jayan, V. Sebastian
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引用次数: 2

摘要

钙钛矿结构与CaTiO3具有相同的晶体结构,在材料科学领域具有重要意义,从陶瓷高温超导体的发现到用于高效光伏发电的有机-无机半导体。由于其独特的晶体结构,钙钛矿表现出各种有趣的性质,如铁电性、超导性、磁电阻、双折射、压电性等。此外,钙钛矿太阳能电池的效率从2009年的3.1%提高到2017年的22.1%。由于大量元素可以组合形成钙钛矿结构,因此可以选择性地设计和优化钙钛矿的物理、光学和电学特性。通过理论和计算建模,可以高精度地获得这些材料迄今为止未知的原子性质、光电性质和操作机制。本文旨在解释DFT杂化泛函的一些潜力,并借助VASP、Wien 2k等软件包分析构成钙钛矿太阳能电池各层化合物的电子、结构和光学性质。高斯09等。本文还回顾了掺杂对钙钛矿太阳能电池各层电子性能的影响,包括带隙、可见光吸收、空穴弛豫时间和电子的DFT,这反过来决定了最佳电荷分离。本文还讨论了基于G0W0+SOC方法的DFT方法在钙钛矿结构中引入中间带隙的影响。本文还讨论了用VASP包进行DFT计算,研究钙钛矿结构中存在的各种本征缺陷的影响。通过选定的材料和具有代表性的界面实例,讨论了用DFT封装对钙钛矿太阳能电池各层界面进行建模的相关性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A review on computational modelling of individual device components and interfaces of perovskite solar cells using DFT
Perovskite structures with the same crystal structure as CaTiO3, are of importance in the field of Materials Science right from the discovery of ceramic high-temperature superconductors to the organic–inorganic semiconductors for high-efficiency photovoltaics. Owing to their unique crystal structure, perovskites display a variety of interesting properties like ferroelectricity, superconductivity, magnetoresistance, birefringence, piezoelectricity etc. Moreover, the efficiency of perovskite solar cells has increased from 3.1% in 2009 to 22.1% in 2017. Since a large number of elements can be combined to form perovskite structures, one can selectively design and optimize perovskite’s physical, optical and electrical characteristics. Through theoretical and computational modelling, it is possible to access the hitherto unknown atomistic properties, opto-electronic properties and operational mechanisms of these materials with high accuracy. This paper aims at explaining some of the potentialities of DFT hybrid functionals to analyze the electronic, structural and optical properties of compounds constituting various layers of a perovskite solar cell with the help of software packages like VASP, Wien 2k. Gaussian 09 etc. This paper also reviews the effect of doping on the electronic properties of various layers of perovskite solar cells including the band gap, visible light absorption, relaxation time of holes and electrons using DFT, which in turn determines the optimum charge separation. The effect of introduction of an Intermediate Band Gap in the perovskite structure using DFT methods based on G0W0+SOC approach is also discussed here. A study on the effect of various intrinsic defects present in perovskite structures using DFT calculations with VASP package is also discussed. The relevance of modelling the interfaces of various layers of perovskite solar cells with DFT packages is discussed with the help of selected examples of materials and representative interfaces.
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