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Advancements in configuration structures and fabrication techniques for achieving stability in perovskite solar cells: a comprehensive review

While perovskite solar cells (PSCs) have exhibited an impressive power conversion efficiency (PCE) of 26.1%, their inherent instability poses a significant obstacle to their widespread commercialisation. Researchers worldwide have diligently employed diverse strategies to enhance their stability, ra...

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Main Authors: Beygisangchin M., Kamarudin S.K., Umar A.A., Farhadi B., Baghdadi A.H., Letchumanan I., Rajabi A., Ehsan A.A., Shaari N.
Other Authors: 57218916798
Format: Review
Published: Springer 2025
Subjects:
Conversion efficiency
Electron transport properties
Fabrication
Fuel cells
Hole mobility
Perovskite
Stability
Cell configurations
Commercialisation
Electron transport layers
Fabrication method
Fabrication technique
Hole transport layers
Inherent instability
Manufacturing techniques
Power conversion efficiencies
Solar cell devices
Perovskite solar cells
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spelling my.uniten.dspace-364022025-03-03T15:42:15Z Advancements in configuration structures and fabrication techniques for achieving stability in perovskite solar cells: a comprehensive review Beygisangchin M. Kamarudin S.K. Umar A.A. Farhadi B. Baghdadi A.H. Letchumanan I. Rajabi A. Ehsan A.A. Shaari N. 57218916798 6506009910 9332520900 57189516231 57202998444 57205627473 56622591700 8671305800 57190803462 Conversion efficiency Electron transport properties Fabrication Fuel cells Hole mobility Perovskite Stability Cell configurations Commercialisation Electron transport layers Fabrication method Fabrication technique Hole transport layers Inherent instability Manufacturing techniques Power conversion efficiencies Solar cell devices Perovskite solar cells While perovskite solar cells (PSCs) have exhibited an impressive power conversion efficiency (PCE) of 26.1%, their inherent instability poses a significant obstacle to their widespread commercialisation. Researchers worldwide have diligently employed diverse strategies to enhance their stability, ranging from configuration modifications to employing varied manufacturing techniques. This review meticulously explores the latest advancements in PSC devices, focusing primarily on the strategies employed to fortify stability, with an emphasis on configuration structures and fabrication methods. The study explores the critical stability parameters and considerations relevant to the long-term stability of PSC configurations. A comprehensive examination of the evolution of PSC configurations is presented, encompassing transitions from regular to inverted designs, the introduction of hole transport layer-free designs, the incorporation of electron transport layer-free configurations, and variations in the use of organic and inorganic materials. Moreover, the review compiles pertinent articles for additional reference, providing a consolidated resource for researchers and enthusiasts in the field. This review offers recommendations to improve the stability of hybrid PSCs and provides a perspective on supporting the commercialisation of PSC technology. Addressing the stability challenges outlined in this review is crucial for unlocking the full potential of PSCs and facilitating their seamless integration into the mainstream renewable energy landscape. ? The Korean Ceramic Society 2024. Final 2025-03-03T07:42:15Z 2025-03-03T07:42:15Z 2024 Review 10.1007/s43207-024-00401-0 2-s2.0-85193000833 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85193000833&doi=10.1007%2fs43207-024-00401-0&partnerID=40&md5=4d11210631a4aee51ad1222e7916d5eb https://irepository.uniten.edu.my/handle/123456789/36402 61 5 755 782 Springer Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic Conversion efficiency
Electron transport properties
Fabrication
Fuel cells
Hole mobility
Perovskite
Stability
Cell configurations
Commercialisation
Electron transport layers
Fabrication method
Fabrication technique
Hole transport layers
Inherent instability
Manufacturing techniques
Power conversion efficiencies
Solar cell devices
Perovskite solar cells
spellingShingle Conversion efficiency
Electron transport properties
Fabrication
Fuel cells
Hole mobility
Perovskite
Stability
Cell configurations
Commercialisation
Electron transport layers
Fabrication method
Fabrication technique
Hole transport layers
Inherent instability
Manufacturing techniques
Power conversion efficiencies
Solar cell devices
Perovskite solar cells
Beygisangchin M.
Kamarudin S.K.
Umar A.A.
Farhadi B.
Baghdadi A.H.
Letchumanan I.
Rajabi A.
Ehsan A.A.
Shaari N.
Advancements in configuration structures and fabrication techniques for achieving stability in perovskite solar cells: a comprehensive review
description While perovskite solar cells (PSCs) have exhibited an impressive power conversion efficiency (PCE) of 26.1%, their inherent instability poses a significant obstacle to their widespread commercialisation. Researchers worldwide have diligently employed diverse strategies to enhance their stability, ranging from configuration modifications to employing varied manufacturing techniques. This review meticulously explores the latest advancements in PSC devices, focusing primarily on the strategies employed to fortify stability, with an emphasis on configuration structures and fabrication methods. The study explores the critical stability parameters and considerations relevant to the long-term stability of PSC configurations. A comprehensive examination of the evolution of PSC configurations is presented, encompassing transitions from regular to inverted designs, the introduction of hole transport layer-free designs, the incorporation of electron transport layer-free configurations, and variations in the use of organic and inorganic materials. Moreover, the review compiles pertinent articles for additional reference, providing a consolidated resource for researchers and enthusiasts in the field. This review offers recommendations to improve the stability of hybrid PSCs and provides a perspective on supporting the commercialisation of PSC technology. Addressing the stability challenges outlined in this review is crucial for unlocking the full potential of PSCs and facilitating their seamless integration into the mainstream renewable energy landscape. ? The Korean Ceramic Society 2024.
author2 57218916798
author_facet 57218916798
Beygisangchin M.
Kamarudin S.K.
Umar A.A.
Farhadi B.
Baghdadi A.H.
Letchumanan I.
Rajabi A.
Ehsan A.A.
Shaari N.
format Review
author Beygisangchin M.
Kamarudin S.K.
Umar A.A.
Farhadi B.
Baghdadi A.H.
Letchumanan I.
Rajabi A.
Ehsan A.A.
Shaari N.
author_sort Beygisangchin M.
title Advancements in configuration structures and fabrication techniques for achieving stability in perovskite solar cells: a comprehensive review
title_short Advancements in configuration structures and fabrication techniques for achieving stability in perovskite solar cells: a comprehensive review
title_full Advancements in configuration structures and fabrication techniques for achieving stability in perovskite solar cells: a comprehensive review
title_fullStr Advancements in configuration structures and fabrication techniques for achieving stability in perovskite solar cells: a comprehensive review
title_full_unstemmed Advancements in configuration structures and fabrication techniques for achieving stability in perovskite solar cells: a comprehensive review
title_sort advancements in configuration structures and fabrication techniques for achieving stability in perovskite solar cells: a comprehensive review
publisher Springer
publishDate 2025
_version_ 1825816105230270464
score 13.244413

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