Defect Passivation and Doping Engineering for Highly Efficient Perovskite Solar Cells
暫譯: 高效鈣鈦礦太陽能電池的缺陷鈍化與摻雜工程
Li, Meicheng
- 出版商: CRC
- 出版日期: 2025-02-25
- 售價: $5,500
- 貴賓價: 9.5 折 $5,225
- 語言: 英文
- 頁數: 282
- 裝訂: Hardcover - also called cloth, retail trade, or trade
- ISBN: 1032614161
- ISBN-13: 9781032614168
海外代購書籍(需單獨結帳)
商品描述
Perovskite solar cells (PSCs) have attracted increasing interest from researchers due to their superb power conversion efficiencies. The intrinsic trap defects, unavoidably formed in the fabrication process, can induce nonradiative recombination, ion migration, I-V hysteresis, and instability of PSCs. However, trap defects are not always harmful. Fully understanding the fundamentals of trap defects as well as the passivation and doping strategies is helpful for further improving device efficiency and stability. This book summarizes the methods and strategies of defect passivation and material doping aiming to clearly describe the underlying mechanisms for high-efficiency and stable PSCs.
- Introduces the fundamental characteristics of perovskite material defects.
- Discusses the main strategies, principles, and applications of defect passivation.
- Describes defect passivation consequences and characterization methods.
- Covers principles, methods, and applications of doping engineering in perovskite.
- Explores the structural design, advantages, characteristics, fabrication methods, and future development of perovskite homojunction.
Engineers and researchers working with photovoltaic generation, solar cells, semiconductors, and related topics will find this book to be an invaluable resource.
商品描述(中文翻譯)
鈣鈦礦太陽能電池(PSCs)因其卓越的能量轉換效率而受到研究人員的日益關注。在製造過程中不可避免地形成的內在陷阱缺陷,可能會引起非輻射重組、離子遷移、I-V 瞬態現象及 PSCs 的不穩定性。然而,陷阱缺陷並不總是有害的。充分理解陷阱缺陷的基本原理以及鈍化和摻雜策略,有助於進一步提高器件的效率和穩定性。本書總結了缺陷鈍化和材料摻雜的方法和策略,旨在清晰描述高效率和穩定的 PSCs 背後的機制。
- 介紹鈣鈦礦材料缺陷的基本特徵。
- 討論缺陷鈍化的主要策略、原則和應用。
- 描述缺陷鈍化的後果和表徵方法。
- 涵蓋鈣鈦礦中摻雜工程的原則、方法和應用。
- 探索鈣鈦礦同接面結構設計、優勢、特徵、製造方法及未來發展。
從事光伏發電、太陽能電池、半導體及相關主題的工程師和研究人員將會發現本書是一本寶貴的資源。
作者簡介
Meicheng Li (李美成) is a Fellow of the Royal Society of Chemistry, a Yangtze River Scholars Distinguished Professor of Ministry of Education, the Director of the New Energy Materials and Devices Research Center, and the Dean of the School of New Energy, North China Electric Power University. He obtained his Ph.D. at Harbin Institute of Technology in 2001. From 2004 to 2006, he worked at the University of Cambridge as a Research Fellow. Prof. Li was awarded as one of the Excellent Talents in the New Century by the Ministry of Education in 2006, as one of the One Hundred Science and Technology Leaders in Beijing in 2017, and as one of the Science and Technology Innovation Talents by the Innovation Talent Promotion Plan of the Ministry of Science and Technology in 2018. He has contributed more than 300 journal articles, and has performed the review services for about 150 SCI journals. Prof. Li is also the Vice Chairman of IEEE PES Energy Development and Power Generation Technology Committee, the Chairman of Energy Storage Materials and Devices Technology Sub-committee, the Standing Director of China Renewable Energy Society, the Deputy Director of Photovoltaic Special Committee, the Deputy Director of Intelligent Energy and Industry Zero-Carbonization Development Committee of China Energy Research Society, the Director of New Energy and Carbon Neutrality Committee of China High-tech Industrialization Research Society, an Executive Fellow of the China Energy Society, and a Fellow of Chinese Society for Optical Engineering.
作者簡介(中文翻譯)
梅城李(Meicheng Li)是皇家化學學會的院士,教育部長江學者特聘教授,新能量材料與裝置研究中心主任,以及華北電力大學新能量學院院長。他於2001年在哈爾濱工業大學獲得博士學位。2004年至2006年,他在劍橋大學擔任研究員。李教授於2006年被教育部評選為新世紀優秀人才,2017年被評為北京市百名科技領軍人才,2018年被科技部創新人才推進計劃評選為科技創新人才。他發表了300多篇期刊文章,並為約150本SCI期刊提供審稿服務。李教授還擔任IEEE PES能源發展與發電技術委員會副主席,能源儲存材料與裝置技術分委會主席,中國可再生能源學會常務理事,中國能源研究會光伏專委會副主任,中國能源研究會智能能源與產業零碳化發展委員會副主任,中國高科技產業化研究會新能量與碳中和委員會主任,中國能源學會執行院士,以及中國光學工程學會院士。
