柔性钙钛矿太阳能电池:低温加工、材料设计和可扩展绿色光伏的途径

IF 12
Tao Ye, Zhenlong Wang, Shaoyang Ma, Zihui Liang, Binghe Ma, Yifan Wang, Xinrui Zhang, Haoyang Sun, Xingxu Zhang, Kai Tao, Congcong Wu, Dong Yang, Jinjun Deng, Jian Luo, Weizheng Yuan, Jin Qian, Tianming Li, Kai Wang
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引用次数: 0

摘要

柔性钙钛矿太阳能电池(FPSCs)由于其轻量化、保形设计以及与低成本、可扩展制造的兼容性,已成为有前途的下一代光伏技术。本文系统总结了FPSC在低温制造策略、功能材料工程和器件集成等方面的最新进展。我们首先详细介绍了一步和两步沉积方法,以及在减少热预算的情况下在柔性衬底上生产高质量钙钛矿薄膜的其他新方法。随后,我们研究了关键功能层的设计,包括钙钛矿吸收层、电子和空穴传输层、柔性电极和衬底,强调了提高性能和机械弹性的创新。一个专门的部分探讨了锡基钙钛矿太阳能电池作为铅基系统的低毒性替代品,包括成分优化,器件架构以及它们在灵活配置中的日益增长的部署。本文进一步讨论了柔性钙钛矿太阳能组件的可扩展实现,包括组件架构,电荷传输管理,以及铅封装和可持续衬底等环境安全策略。最后,我们概述了从可穿戴电子产品和高空平台到自供电物联网系统的应用场景,并评估了集成便携式能源系统的商业化前景。总之,这些见解为开发高效、机械坚固、环保的fpsc提供了全面的路线图。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Flexible Perovskite Solar Cells: Low Temperature Processing, Material Design, and Pathways to Scalable Green Photovoltaics

Flexible Perovskite Solar Cells: Low Temperature Processing, Material Design, and Pathways to Scalable Green Photovoltaics

Flexible perovskite solar cells (FPSCs) have emerged as a promising next- generation photovoltaic technology due to their lightweight, conformal design, and compatibility with low-cost, scalable fabrication. This review systematically summarizes recent advances in FPSC development, focusing on low-temperature fabrication strategies, functional material engineering, and device integration. We first detail one- step and two-step deposition methods, along with other novel approaches for producing high-quality perovskite films on flexible substrates at reduced thermal budgets. Subsequently, we examine the design of key functional layers, including perovskite absorbers, electron and hole transport layers, flexible electrodes, and substrates, highlighting innovations that enhance performance and mechanical resilience. A dedicated section explores Sn-based perovskite solar cells as a low-toxicity alternative to lead-based systems, covering compositional optimization, device architecture, and their growing deployment in flexible configurations. This review further discusses the scalable realization of flexible perovskite solar modules, including module architecture, charge transport management, and environmental safety strategies such as lead encapsulation and sustainable substrates. We conclude with an overview of application scenarios ranging from wearable electronics and high-altitude platforms to self-powered IoT systems and evaluate commercialization prospects through integrated portable energy systems. Together, these insights provide a comprehensive roadmap toward the development of high-efficiency, mechanically robust, and environmentally responsible FPSCs for real-world deployment.

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