Two-Dimensional Phosphorene for Solution-Processed Thin-Film Solar Cells

IF 6 3区工程技术 Q2 ENERGY & FUELS

Solar RRL Pub Date : 2025-05-16 DOI:10.1002/solr.202500165

Wenhao Guo, Jingkun Wang, Zongyang Li, Yuxuan Cheng, Bowen Li, Chenxi Zhang, Shiqi Li, Yukun Wu, Min Zhao, Yifan Huang, Yuying Hao

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Abstract

Two-dimensional phosphorene (2D phosphorene) exhibits significant advantages in the field of solar cells due to its tunable bandgap, high carrier mobility, and high light absorption. They can serve as electrodes, hole transport layers (HTLs), electron transport layers (ETLs), and functional additives in the active layer, significantly enhancing the optoelectronic performance of devices. This paper reviews the basic properties and provides a comprehensive summary of the synthesis methods of 2D phosphorene. Furthermore, the impact of 2D phosphorene as an electrode, charge transport layer, and additive in the active layer of solution-processed thin-film solar cells is highlighted. Although the application of phosphorene in solar cells has achieved initial success, its stability issues and challenges of large-scale preparation still need to be further addressed. It is believed that 2D phosphorene is anticipated to have a significant impact on the commercial application of high-efficiency solar cells.

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溶液处理薄膜太阳能电池的二维磷二烯

二维磷烯（2D phosphorene）具有可调带隙、高载流子迁移率和高光吸收率等优点，在太阳能电池领域具有显著的优势。它们可以作为电极、空穴传输层（HTLs）、电子传输层（ETLs）以及有源层中的功能添加剂，显著提高器件的光电性能。本文综述了二维膦烯的基本性质，并对二维膦烯的合成方法进行了综述。此外，还强调了二维磷烯作为电极、电荷传输层和添加剂在溶液加工薄膜太阳能电池活性层中的影响。虽然磷烯在太阳能电池中的应用已经取得了初步的成功，但其稳定性问题和大规模制备的挑战仍有待进一步解决。认为二维磷烯有望对高效太阳能电池的商业应用产生重大影响。

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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来源期刊

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.