钙钛矿太阳能电池手册,第1卷
Organic–inorganic hybrid metal halide perovskite materials have attracted significant attention due to their advantages of low cost, tunable band gap, solution processing, high molar extinction coefficient, low exciton binding energy, and high carrier mobility. Perovskite absorber layers play a decisive role in the realization of high-power conversion efficiency in perovskite solar cells (PSCs). This book systematically and comprehensively discusses device structures, working principles, and optimization strategies of perovskite absorber layers for PSCs to help foster commercialization of these environmentally friendly power sources. It describes strategies to optimize the quality of perovskite films, including composition engineering, dimensional engineering, solvent engineering, strain engineering, additive engineering, and interface engineering.
This volume
Introduces crystal structures of perovskites, configurations of PSCs, and their working principles Discusses the modulation of perovskite compositions and dimensionality towards highly stable and efficient perovskite photovoltaics Details the advancements of low-dimensional PSCs including phase stability of perovskite films and strategies for modulating phases Summarizes progress in solvent engineering, additive engineering, and strain engineering in efficient and scalable perovskite photovoltaics Describes the complex crystallization dynamics of perovskites, interface engineering, and synergistic modulation of grain boundaries and interfaces in PSCs Highlights advances in ion migration and mitigation in halide perovskite solar cells and origins and elimination of hysteresis This book is aimed at researchers, advanced students, and industry professionals in materials, energy, and related areas of engineering who are interested in development and commercialization of photovoltaic technologies.
中文|2024|ISBN:978100340486|453页|True PDF,EPUB | 151.66 MB有机-无机杂化金属卤化物钙钛矿材料因其低成本、可调带隙、溶液处理、高摩尔消光系数、低激子结合能和高载流子迁移率等优点而受到广泛关注。钙钛矿吸收层在钙钛矿太阳能电池(PSC)中实现高功率转换效率方面起着决定性作用。本书系统全面地讨论了用于PSC的钙钛矿吸收层的器件结构、工作原理和优化策略,以帮助促进这些环保电源的商业化。它描述了优化钙钛矿薄膜质量的策略,包括成分工程、尺寸工程、溶剂工程、应变工程、添加剂工程和界面工程。 本卷 介绍钙钛矿的晶体结构、PSC的配置及其工作原理讨论钙钛矿成分和维度的调制,以实现高度稳定和高效的钙钛矿光伏发电。详细介绍低维PSC的进展,包括钙钛矿薄膜的相稳定性和相位调制策略。总结高效和可扩展钙钛矿光伏发电中溶剂工程、添加剂工程和应变工程的进展。描述钙钛矿的复杂结晶动力学、界面工程以及PSC中晶界和界面的协同调制。突出卤化物钙钛矿太阳能电池中离子迁移和缓解的进展以及滞后现象的起源和消除。本书面向对光伏技术的开发和商业化感兴趣的材料、能源和相关工程领域的研究人员、高级学生和行业专业人士。本站不对文件进行储存,仅提供文件链接,请自行下载,本站不对文件内容负责,请自行判断文件是否安全,如发现文件有侵权行为,请联系管理员删除。
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