Surface engineering of perovskite films for efficient solar cells

It is critical to prepare smooth and dense perovskite films for the fabrication of high efficiency perovskite solar cells. However, solution casting process often results in films with pinhole formation and incomplete surface coverage. Herein, we demonstrate a fast and efficient vacuum deposition me...

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Published inScientific reports Vol. 7; no. 1; pp. 14478 - 9
Main Authors Wang, Jin-Feng, Zhu, Lei, Zhao, Ben-Guang, Zhao, Yu-Long, Song, Jian, Gu, Xiu-Quan, Qiang, Ying-Huai
Format Journal Article
LanguageEnglish
Published London Nature Publishing Group UK 03.11.2017
Nature Publishing Group
Subjects
639/301/299/946
639/624/399/354
Efficiency
Humanities and Social Sciences
multidisciplinary
Photovoltaic cells
Science
Science (multidisciplinary)
Vacuum
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Abstract It is critical to prepare smooth and dense perovskite films for the fabrication of high efficiency perovskite solar cells. However, solution casting process often results in films with pinhole formation and incomplete surface coverage. Herein, we demonstrate a fast and efficient vacuum deposition method to optimize the surface morphology of solution-based perovskite films. The obtained planar devices exhibit an average power conversion efficiency (PCE) of 13.42% with a standard deviation of ±2.15% and best efficiency of 15.57%. Furthermore, the devices also show excellent stability of over 30 days with a slight degradation <9% when stored under ambient conditions. We also investigated the effect of vacuum deposition thickness on the electron transportation and overall performance of the devices. This work provides a versatile approach to prepare high-quality perovskite films and paves a way for high-performance and stable perovskite photovoltaic devices.
AbstractList It is critical to prepare smooth and dense perovskite films for the fabrication of high efficiency perovskite solar cells. However, solution casting process often results in films with pinhole formation and incomplete surface coverage. Herein, we demonstrate a fast and efficient vacuum deposition method to optimize the surface morphology of solution-based perovskite films. The obtained planar devices exhibit an average power conversion efficiency (PCE) of 13.42% with a standard deviation of ±2.15% and best efficiency of 15.57%. Furthermore, the devices also show excellent stability of over 30 days with a slight degradation <9% when stored under ambient conditions. We also investigated the effect of vacuum deposition thickness on the electron transportation and overall performance of the devices. This work provides a versatile approach to prepare high-quality perovskite films and paves a way for high-performance and stable perovskite photovoltaic devices.
Abstract It is critical to prepare smooth and dense perovskite films for the fabrication of high efficiency perovskite solar cells. However, solution casting process often results in films with pinhole formation and incomplete surface coverage. Herein, we demonstrate a fast and efficient vacuum deposition method to optimize the surface morphology of solution-based perovskite films. The obtained planar devices exhibit an average power conversion efficiency (PCE) of 13.42% with a standard deviation of ±2.15% and best efficiency of 15.57%. Furthermore, the devices also show excellent stability of over 30 days with a slight degradation <9% when stored under ambient conditions. We also investigated the effect of vacuum deposition thickness on the electron transportation and overall performance of the devices. This work provides a versatile approach to prepare high-quality perovskite films and paves a way for high-performance and stable perovskite photovoltaic devices.
It is critical to prepare smooth and dense perovskite films for the fabrication of high efficiency perovskite solar cells. However, solution casting process often results in films with pinhole formation and incomplete surface coverage. Herein, we demonstrate a fast and efficient vacuum deposition method to optimize the surface morphology of solution-based perovskite films. The obtained planar devices exhibit an average power conversion efficiency (PCE) of 13.42% with a standard deviation of ±2.15% and best efficiency of 15.57%. Furthermore, the devices also show excellent stability of over 30 days with a slight degradation &lt;9% when stored under ambient conditions. We also investigated the effect of vacuum deposition thickness on the electron transportation and overall performance of the devices. This work provides a versatile approach to prepare high-quality perovskite films and paves a way for high-performance and stable perovskite photovoltaic devices.
ArticleNumber 14478
Author Zhu, Lei
Zhao, Ben-Guang
Qiang, Ying-Huai
Gu, Xiu-Quan
Wang, Jin-Feng
Zhao, Yu-Long
Song, Jian
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  email: lzhu@cumt.edu.cn
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  email: yhqiang@cumt.edu.cn
  organization: School of Materials Science and Engineering, China University of Mining and Technology
BackLink https://www.ncbi.nlm.nih.gov/pubmed/29101384$$D View this record in MEDLINE/PubMed
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Snippet It is critical to prepare smooth and dense perovskite films for the fabrication of high efficiency perovskite solar cells. However, solution casting process...
Abstract It is critical to prepare smooth and dense perovskite films for the fabrication of high efficiency perovskite solar cells. However, solution casting...
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SubjectTerms 639/301/299/946
639/624/399/354
Efficiency
Humanities and Social Sciences
multidisciplinary
Photovoltaic cells
Science
Science (multidisciplinary)
Vacuum
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Title Surface engineering of perovskite films for efficient solar cells
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