Rigorous simulation of photon recycling effects in perovskite solar cells and LEDs

U. Aeberhard, Simon Zeder, B. Ruhstaller
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引用次数: 0

Abstract

Secondary photogeneration due to reabsorption of internally emitted photons in metal halide perovskites is assessed using a novel dipole emission model that is compatible with detailed balance rates. The model considers the non-uniform local photon density of states of thin film absorbers/emitters consistently in internal and external emission and provides insight into the impact of photon confinement on the effectiveness of photon recycling in the wave optics regime. New and general expressions for local radiative recombination and generation rates in terms of the local values of refractive index, extinction coefficient, density of states, and quasi-Fermi level splitting allow for a seamless integration of photon recycling into full opto-electronic device simulation frameworks.
钙钛矿太阳能电池和led中光子回收效应的严格模拟
由于金属卤化物钙钛矿内部发射光子的重吸收,二次光产生被评估使用新的偶极子发射模型,是兼容的详细平衡率。该模型考虑了薄膜吸收体/发射体内部和外部发射状态的非均匀局域光子密度,并深入了解了光子约束对波光学状态下光子回收效率的影响。根据折射率、消光系数、态密度和准费米能级分裂的局域值,新的和一般的局域辐射复合和生成率表达式允许光子回收无缝集成到完整的光电器件模拟框架中。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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