Low-Temperature Crystallization Enables 21.9% Efficient Single-Crystal MAPbI3 Inverted Perovskite Solar Cells

Lead halide perovskite solar cells (PSCs) have advanced rapidly in performance over the past decade. Single-crystal PSCs based on micrometers-thick grain-boundary-free films with long charge carrier diffusion lengths and enhanced light absorption (relative to polycrystalline films) have recently eme...

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Published inACS energy letters Vol. 5; no. 2; pp. 657 - 662
Main Authors Alsalloum, Abdullah Y, Turedi, Bekir, Zheng, Xiaopeng, Mitra, Somak, Zhumekenov, Ayan A, Lee, Kwang Jae, Maity, Partha, Gereige, Issam, AlSaggaf, Ahmed, Roqan, Iman S, Mohammed, Omar F, Bakr, Osman M
Format Journal Article
LanguageEnglish
Published American Chemical Society 14.02.2020
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Abstract Lead halide perovskite solar cells (PSCs) have advanced rapidly in performance over the past decade. Single-crystal PSCs based on micrometers-thick grain-boundary-free films with long charge carrier diffusion lengths and enhanced light absorption (relative to polycrystalline films) have recently emerged as candidates for advancing PSCs further toward their theoretical limit. To date, the preferred method to grow MAPbI3 single-crystal films for PSCs involves solution processing at temperatures ≳120 °C, which adversely affects the films’ crystalline quality, especially at the surface, primarily because of methylammonium iodide loss at such high temperatures. Here we devise a solvent-engineering approach to reduce the crystallization temperature of MAPbI3 single-crystal films (<90 °C), yielding better quality films with longer carrier lifetimes. Single-crystal MAPbI3 inverted PSCs fabricated with this strategy show markedly enhanced open-circuit voltages (1.15 V vs 1.08 V for controls), leading to power conversion efficiencies of up to 21.9%, which are among the highest reported for MAPbI3-based devices.
AbstractList Lead halide perovskite solar cells (PSCs) have advanced rapidly in performance over the past decade. Single-crystal PSCs based on micrometers-thick grain-boundary-free films with long charge carrier diffusion lengths and enhanced light absorption (relative to polycrystalline films) have recently emerged as candidates for advancing PSCs further toward their theoretical limit. To date, the preferred method to grow MAPbI3 single-crystal films for PSCs involves solution processing at temperatures ≳120 °C, which adversely affects the films’ crystalline quality, especially at the surface, primarily because of methylammonium iodide loss at such high temperatures. Here we devise a solvent-engineering approach to reduce the crystallization temperature of MAPbI3 single-crystal films (<90 °C), yielding better quality films with longer carrier lifetimes. Single-crystal MAPbI3 inverted PSCs fabricated with this strategy show markedly enhanced open-circuit voltages (1.15 V vs 1.08 V for controls), leading to power conversion efficiencies of up to 21.9%, which are among the highest reported for MAPbI3-based devices.
Author Zheng, Xiaopeng
Turedi, Bekir
Mitra, Somak
Mohammed, Omar F
Zhumekenov, Ayan A
AlSaggaf, Ahmed
Maity, Partha
Gereige, Issam
Bakr, Osman M
Lee, Kwang Jae
Roqan, Iman S
Alsalloum, Abdullah Y
AuthorAffiliation Division of Physical Sciences and Engineering
Saudi Aramco Research & Development Center
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  givenname: Osman M
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  surname: Bakr
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  email: osman.bakr@kaust.edu.sa
  organization: Division of Physical Sciences and Engineering
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Snippet Lead halide perovskite solar cells (PSCs) have advanced rapidly in performance over the past decade. Single-crystal PSCs based on micrometers-thick...
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Title Low-Temperature Crystallization Enables 21.9% Efficient Single-Crystal MAPbI3 Inverted Perovskite Solar Cells
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