Emerging Organic/Hybrid Photovoltaic Cells for Indoor Applications: Recent Advances and Perspectives,Solar RRL

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Emerging Organic/Hybrid Photovoltaic Cells for Indoor Applications: Recent Advances and Perspectives
Solar RRL ( IF 6.0 ) Pub Date : 2021-04-23 , DOI: 10.1002/solr.202100042
Hao Zheng ₁ , Deli Li ₁ , Chenxin Ran ₁ , Qi Zhong ₂ , Lin Song ₁ , Yonghua Chen ₃ , Peter Müller-Buschbaum _{4,

5} , Wei Huang _{1,

3,

6}

Affiliation

Due to the continuous development and advances in the Internet of Things, wireless sensors, actuators for human−interactive machines, and indoor low-power devices require a continuous supply of energy. Photovoltaic cells working under indoor light are suitable candidates for charging these devices because of their high voltages (up to 5 V), low costs, and environmental friendliness. Herein, the research on organic photovoltaic, dye-sensitized, and perovskite cells in indoor photovoltaic applications with respect to the active layer, modified layer, and preparation process is summarized. The performance enhancement of indoor photovoltaic cells is outlined, including photoactive material selection, bandgap optimization, modification layer function, and device structure design, followed by the prospects and challenges of future developments in indoor photovoltaic cells. With this review an important perspective for the advancement of indoor photovoltaics is offered.

中文翻译：

用于室内应用的新兴有机/混合光伏电池：最新进展和前景

由于物联网的不断发展和进步，无线传感器、人机交互执行器和室内低功耗设备需要持续的能源供应。在室内光线下工作的光伏电池因其高电压（高达 5 V）、低成本和环境友好性而非常适合为这些设备充电。本文就有机光伏电池、染料敏化电池和钙钛矿电池在室内光伏应用中的活性层、改性层和制备工艺等方面的研究进行了总结。概述了室内光伏电池的性能提升，包括光敏材料选择、带隙优化、改性层功能和器件结构设计，其次是室内光伏电池未来发展的前景和挑战。这篇综述为室内光伏的发展提供了一个重要的视角。

更新日期：2021-04-23

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