Crystallization Regulation for Stable Blade-Coated Flexible Perovskite Solar Modules

iEnergy Pub Date : 2024-12-09 DOI:10.23919/IEN.2024.0024
Hua Zhong;Fei Zhang
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Abstract

Effective perovskite crystallization control strategies for flexible substrates with scalable processing techniques have rarely been reported and remain an important challenge. In this study, 3-mercaptobenzoic acid (3-MBA) was introduced into the perovskite precursor to modulate the crystallization dynamics, facilitating rapid nucleation while slowing down crystal growth. This approach enabled the formation of uniform, dense large-area perovskite films on flexible substrates. Consequently, a $12\ \text{cm}^{2}$ flexible perovskite solar module achieved a power conversion efficiency (PCE) of 16.43%. Additionally, the module exhibited enhanced mechanical stability under various bending radii and improved light stability, marking a substantial advance toward the practical application of flexible perovskite solar modules.
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稳定叶片涂层柔性钙钛矿太阳能组件的结晶调节
具有可扩展加工技术的柔性衬底有效的钙钛矿结晶控制策略很少被报道,并且仍然是一个重要的挑战。本研究将3-巯基苯甲酸(3-MBA)引入到钙钛矿前驱体中,调节其结晶动力学,促进其快速成核,同时减缓晶体生长。这种方法能够在柔性衬底上形成均匀、致密的大面积钙钛矿薄膜。因此,一个$12\ \text{cm}^{2}$柔性钙钛矿太阳能组件的功率转换效率(PCE)达到16.43%。此外,该组件在各种弯曲半径下表现出增强的机械稳定性和改善的光稳定性,标志着柔性钙钛矿太阳能组件的实际应用取得了实质性进展。
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iEnergy
iEnergy
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Contents Front Cover Methods of Suppressing Ion Migration in n-i-p Perovskite Solar Cells Artificial Intelligence Techniques for Stability Analysis in Modern Power Systems Intelligent Adjustment for Power System Operation Mode Based on Deep Reinforcement Learning
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