Omnidirectional Optical Engineering and Ternary Strategy for High-Performance Indoor Organic Photovoltaics

IF 6 3区 工程技术 Q2 ENERGY & FUELS Solar RRL Pub Date : 2024-08-20 DOI:10.1002/solr.202400483
Kaiwen Zheng, Baozhong Deng, Zhouyi Lu, Luqiao Yin, Shenghao Wang, Hongliang Dong, Esther Mbina, Kekeli N'konou, Bruno Grandidier, Tao Xu
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Abstract

Indoor organic photovoltaics (IOPVs) with tunable absorption spectra and relatively high power conversion efficiency (PCE) have emerged as one of the most promising energy sources for Internet of Things devices, but enhancing the device performance under various directions of indoor illumination is challenging. Herein, it is proposed to combine omnidirectional optical engineering and ternary strategy for achieving high-performance IOPVs. The advantage is taken of a ternary bulk heterojunction (BHJ) with a polymer donor having aligned absorption spectra with the light-emitting diode (LED) spectrum and a guest component that not only blueshifts the near-infrared absorption of the acceptor but also improves electrical and morphological properties of the BHJ. A 2D photonic-structured antireflection coating is further developed to selectively improve the light absorption of IOPVs, leading to a PCE of 29.07% under 1000 lux LED illumination. More importantly, the antireflection coating maintains the initial PCE even when irradiated by light incident at large angles, demonstrating an omnidirectional effectiveness. This weaker angular dependency on light absorption provides practical prospects for future sustainable indoor photovoltaic systems.

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高性能室内有机光伏的全向光学工程和三元策略
室内有机光伏(IOPV)具有可调的吸收光谱和相对较高的功率转换效率(PCE),已成为物联网设备中最有前途的能源之一,但要在室内不同方向的光照下提高设备性能却很有挑战性。本文提出将全向光学工程与三元策略相结合,以实现高性能的 IOPV。利用三元体异质结(BHJ)的优势,聚合物供体的吸收光谱与发光二极管(LED)光谱一致,而客体成分不仅能蓝移受体的近红外吸收,还能改善 BHJ 的电学和形态特性。进一步开发的二维光子结构抗反射涂层可选择性地改善 IOPV 的光吸收,从而在 1000 勒克斯 LED 照明下实现 29.07% 的 PCE。更重要的是,即使在大角度入射光照射下,抗反射涂层仍能保持初始 PCE,显示出全方位的功效。这种较弱的光吸收角度依赖性为未来的可持续室内光伏系统提供了切实可行的前景。
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来源期刊
Solar RRL
Solar RRL Physics and Astronomy-Atomic and Molecular Physics, and Optics
CiteScore
12.10
自引率
6.30%
发文量
460
期刊介绍: Solar RRL, formerly known as Rapid Research Letters, has evolved to embrace a broader and more encompassing format. We publish Research Articles and Reviews covering all facets of solar energy conversion. This includes, but is not limited to, photovoltaics and solar cells (both established and emerging systems), as well as the development, characterization, and optimization of materials and devices. Additionally, we cover topics such as photovoltaic modules and systems, their installation and deployment, photocatalysis, solar fuels, photothermal and photoelectrochemical solar energy conversion, energy distribution, grid issues, and other relevant aspects. Join us in exploring the latest advancements in solar energy conversion research.
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