用于全向有机光伏电池的壳形有源层

IF 1.5 4区 工程技术 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY
D. Hah
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引用次数: 0

摘要

摘要对于在可穿戴电子系统中使用有机光伏电池,能量转换效率和全方向性(角度覆盖)的改进受到高度赞赏。本研究旨在通过引入壳状活动层来改善这些问题。所提出的器件结构通过光耦合到有源层中的引导模式来增强光吸收和角度范围。两种形状,即三角形和半圆,对壳体截面进行了检查。利用有限元分析和时域有限差分方法进行的数值模拟表明,与相同厚度的扁平有源层相比,具有三角形壳型有源层的器件对横向电极化(TE)和横向磁极化(TM)的平均吸收增强可达63%和32%。半圆壳型活性层的平均增强值略低于这些值,TE为60%,TM为28%。考虑TM偏振时,三角形壳型器件的吸收角为81°,半圆形器件的吸收角为76°,具有良好的全方向性。这些吸收增强和改进的角度覆盖使所提出的结构对可穿戴电子系统应用具有很高的吸引力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Shell-shaped active layers for omnidirectional organic photovoltaic cells
Abstract. For the employment of organic photovoltaic cells in wearable electronic systems, improvements in energy conversion efficiency and omnidirectionality (angular coverage) are highly appreciated. This study aims at those improvements by introducing shell-shaped active layers. The proposed device structures enhance light absorption and angular range through light coupling to guided modes in the active layer. Two shapes, i.e., a triangle and a semicircle, are examined for the shell cross-sections. Numerical simulation using finite-element analysis and finite-difference time-domain methods demonstrates that the devices with the triangular-shell-shaped active layers exhibit an average absorption enhancement of up to 63% for transverse electric (TE)-polarization and up to 32% for transverse magnetic (TM)-polarization when compared with the flat active layers of the same thicknesses. The average enhancements of the semicircular-shell-shaped active layers are found to be slightly lower than those values, with 60% for TE and 28% for TM. The examined structures also show good omnidirectionality with decent absorption up to an 81 deg incidence angle for the triangular-shell-shaped device and up to a 76 deg angle for the semicircular one when TM polarization is considered. These absorption enhancements and improved angular coverages make the proposed structures highly attractive for wearable electronic system applications.
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来源期刊
Journal of Photonics for Energy
Journal of Photonics for Energy MATERIALS SCIENCE, MULTIDISCIPLINARY-OPTICS
CiteScore
3.20
自引率
5.90%
发文量
28
审稿时长
>12 weeks
期刊介绍: The Journal of Photonics for Energy publishes peer-reviewed papers covering fundamental and applied research areas focused on the applications of photonics for renewable energy harvesting, conversion, storage, distribution, monitoring, consumption, and efficient usage.
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