Front‐Edge Research Progress of Photo‐Rechargeable Perovskite Solar Cell‐Zinc‐Ion Batteries

IF 19 1区材料科学 Q1 CHEMISTRY, MULTIDISCIPLINARY

Advanced Functional Materials Pub Date : 2025-10-11 DOI:10.1002/adfm.202515939

Wendong Zhu, Rong Xuan, Yuhong Xu, Xinlei Gan, Qiuxiang Wang, Jiaxing Xiong, Xiaohui Liu, Like Huang, Jing Zhang, Qidong Tai, Ying Yang, Jing Cuan, Weiping Li, Yuejin Zhu, Liyuan Han

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引用次数: 0

Abstract

With the rapid development of the new generation of self‐powered pocket electronic devices, the demand for sustainable and self‐sufficient power sources has become increasingly critical. Photo‐rechargeable batteries, as an efficient energy‐saving alternative to traditional energy sources, offer substantial societal benefits in modern life. Rechargeable zinc‐ion batteries integrated with perovskite solar cells (PSC‐ZIBs), characterized by both high outdoor and indoor efficiencies, light‐weight, and non‐flammability properties, hold great promise for applications in wearable devices, indoor photovoltaics, energy recycling, and other fields. This review comprehensively summarizes the development of PSC‐ZIBs. A meticulous discussion is presented regarding its mechanism and front‐edge development, such as the structural optimization and performance improvement of PSC‐ZIBs hybrid systems. Special emphasis is placed on the application prospects of Internet of Things (IoT) devices and indoor photovoltaic scenarios, which benefit from the PSC and ZIB units. Finally, perspectives, critical insight, and recommendations for future research are provided, aiming to facilitate the development of high‐performance PSC‐ZIBs devices and promote their practical implementation.

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光可充电钙钛矿太阳能电池锌离子电池的前沿研究进展

随着新一代自供电袖珍电子设备的快速发展，对可持续和自给的电源的需求变得越来越迫切。光充电电池作为一种高效节能的传统能源替代品，在现代生活中提供了巨大的社会效益。可充电锌离子电池与钙钛矿太阳能电池（PSC‐ZIBs）相结合，具有室外和室内效率高、重量轻、不易燃的特点，在可穿戴设备、室内光伏、能源回收和其他领域的应用前景广阔。本文综述了PSC‐ZIBs的研究进展。对PSC - ZIBs混合动力系统的结构优化和性能改进等方面的研究进展进行了详细的讨论。特别强调了物联网（IoT）设备和室内光伏场景的应用前景，这些应用将受益于PSC和ZIB单元。最后，对未来的研究提供了观点、关键见解和建议，旨在促进高性能PSC‐ZIBs器件的开发并促进其实际实施。

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

Advanced Functional Materials 工程技术-材料科学：综合

CiteScore

29.50

自引率

4.20%

发文量

2086

审稿时长

2.1 months

期刊介绍： Firmly established as a top-tier materials science journal, Advanced Functional Materials reports breakthrough research in all aspects of materials science, including nanotechnology, chemistry, physics, and biology every week. Advanced Functional Materials is known for its rapid and fair peer review, quality content, and high impact, making it the first choice of the international materials science community.