Alkali Additives Enable Efficient Large Area (>55 cm2) Slot-Die Coated Perovskite Solar Modules

Prem Jyoti Singh Rana; Benny Febriansyah; Teck Ming Koh; Bening Tirta Muhammad; Teddy Salim; Thomas J.N. Hooper; Anil Kanwat; Biplab Ghosh; Priyanka Kajal; Jia Haur Lew; Yeow Chong Aw; Natalia Yantara; Annalisa Bruno; Sumod A. Pullarkat; Joel W. Ager; Wei Lin Leong; Subodh G. Mhaisalkar; Nripan Mathews

doi:10.1002/adfm.202113026

Alkali Additives Enable Efficient Large Area (>55 cm²) Slot-Die Coated Perovskite Solar Modules

Prem Jyoti Singh Rana, Benny Febriansyah, Teck Ming Koh, Bening Tirta Muhammad, Teddy Salim, Thomas J.N. Hooper, Anil Kanwat, Biplab Ghosh, Priyanka Kajal, Jia Haur Lew, Yeow Chong Aw, Natalia Yantara, Annalisa Bruno, Sumod A. Pullarkat, Joel W. Ager, Wei Lin Leong, Subodh G. Mhaisalkar, Nripan Mathews^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

71 Citations (Scopus)

Abstract

Typical fabrication methods for laboratory-scale (<1 cm²) perovskite solar cells (PSCs) are undeniably not scalable and the control of crystallization of large-area perovskite layer for commercial sized modules is also particularly challenging. Here, a seed-assisted crystallization approach is demonstrated through addition of alkali salts, CsPbBr₃ and KPb₂Br₅, to the perovskite precursor ink for enabling homogeneous and highly crystalline large-area Cs_0.15FA_0.85Pb(I_0.83Br_0.17)₃ (CsFA) perovskite films via scalable slot-die coating technique. X-ray photoelectron spectroscopy analysis reveals the segregation of potassium ions at SnO₂/perovskite interface which serve as nucleation sites for the crystallization of perovskite layer. The uniformly slot-die coated CsFA films (100 cm²) from the additives containing precursor inks possess larger grains with enhanced optoelectronic properties and the corresponding devices display higher reproducibility and consistency. A champion device efficiency of 18.94% under 1 sun illumination for slot-die coated PSCs in n-type/intrinsic/p-type structure is demonstrated with improved stability with 82% of its initial efficiency tested at 65 °C for 1150 h. The slot-die coated methylammonium-free perovskite module with an active area of 57.5 cm² shows an efficiency of 16.22% and retains 82% of its initial efficiency after 4800 h under 30% relative humidity without encapsulation.

Original language	English
Article number	2113026
Journal	Advanced Functional Materials
Volume	32
Issue number	22
DOIs	https://doi.org/10.1002/adfm.202113026
Publication status	Published - May 25 2022
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2022 Wiley-VCH GmbH.

ASJC Scopus Subject Areas

Electronic, Optical and Magnetic Materials
General Chemistry
Biomaterials
General Materials Science
Condensed Matter Physics
Electrochemistry

Keywords

alkali additive
large area
perovskite
slot die coating
solar module

Access to Document

10.1002/adfm.202113026

Cite this

Rana, P. J. S., Febriansyah, B., Koh, T. M., Muhammad, B. T., Salim, T., Hooper, T. J. N., Kanwat, A., Ghosh, B., Kajal, P., Lew, J. H., Aw, Y. C., Yantara, N., Bruno, A., Pullarkat, S. A., Ager, J. W., Leong, W. L., Mhaisalkar, S. G., & Mathews, N. (2022). Alkali Additives Enable Efficient Large Area (>55 cm²) Slot-Die Coated Perovskite Solar Modules. Advanced Functional Materials, 32(22), Article 2113026. https://doi.org/10.1002/adfm.202113026

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title = "Alkali Additives Enable Efficient Large Area (>55 cm2) Slot-Die Coated Perovskite Solar Modules",

abstract = "Typical fabrication methods for laboratory-scale (<1 cm2) perovskite solar cells (PSCs) are undeniably not scalable and the control of crystallization of large-area perovskite layer for commercial sized modules is also particularly challenging. Here, a seed-assisted crystallization approach is demonstrated through addition of alkali salts, CsPbBr3 and KPb2Br5, to the perovskite precursor ink for enabling homogeneous and highly crystalline large-area Cs0.15FA0.85Pb(I0.83Br0.17)3 (CsFA) perovskite films via scalable slot-die coating technique. X-ray photoelectron spectroscopy analysis reveals the segregation of potassium ions at SnO2/perovskite interface which serve as nucleation sites for the crystallization of perovskite layer. The uniformly slot-die coated CsFA films (100 cm2) from the additives containing precursor inks possess larger grains with enhanced optoelectronic properties and the corresponding devices display higher reproducibility and consistency. A champion device efficiency of 18.94% under 1 sun illumination for slot-die coated PSCs in n-type/intrinsic/p-type structure is demonstrated with improved stability with 82% of its initial efficiency tested at 65 °C for 1150 h. The slot-die coated methylammonium-free perovskite module with an active area of 57.5 cm2 shows an efficiency of 16.22% and retains 82% of its initial efficiency after 4800 h under 30% relative humidity without encapsulation.",

keywords = "alkali additive, large area, perovskite, slot die coating, solar module",

author = "Rana, {Prem Jyoti Singh} and Benny Febriansyah and Koh, {Teck Ming} and Muhammad, {Bening Tirta} and Teddy Salim and Hooper, {Thomas J.N.} and Anil Kanwat and Biplab Ghosh and Priyanka Kajal and Lew, {Jia Haur} and Aw, {Yeow Chong} and Natalia Yantara and Annalisa Bruno and Pullarkat, {Sumod A.} and Ager, {Joel W.} and Leong, {Wei Lin} and Mhaisalkar, {Subodh G.} and Nripan Mathews",

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year = "2022",

month = may,

day = "25",

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Rana, PJS, Febriansyah, B, Koh, TM, Muhammad, BT, Salim, T, Hooper, TJN, Kanwat, A, Ghosh, B, Kajal, P, Lew, JH, Aw, YC, Yantara, N, Bruno, A, Pullarkat, SA, Ager, JW, Leong, WL, Mhaisalkar, SG & Mathews, N 2022, 'Alkali Additives Enable Efficient Large Area (>55 cm²) Slot-Die Coated Perovskite Solar Modules', Advanced Functional Materials, vol. 32, no. 22, 2113026. https://doi.org/10.1002/adfm.202113026

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T1 - Alkali Additives Enable Efficient Large Area (>55 cm2) Slot-Die Coated Perovskite Solar Modules

AU - Rana, Prem Jyoti Singh

AU - Febriansyah, Benny

AU - Koh, Teck Ming

AU - Muhammad, Bening Tirta

AU - Salim, Teddy

AU - Hooper, Thomas J.N.

AU - Kanwat, Anil

AU - Ghosh, Biplab

AU - Kajal, Priyanka

AU - Lew, Jia Haur

AU - Aw, Yeow Chong

AU - Yantara, Natalia

AU - Bruno, Annalisa

AU - Pullarkat, Sumod A.

AU - Ager, Joel W.

AU - Leong, Wei Lin

AU - Mhaisalkar, Subodh G.

AU - Mathews, Nripan

PY - 2022/5/25

Y1 - 2022/5/25

N2 - Typical fabrication methods for laboratory-scale (<1 cm2) perovskite solar cells (PSCs) are undeniably not scalable and the control of crystallization of large-area perovskite layer for commercial sized modules is also particularly challenging. Here, a seed-assisted crystallization approach is demonstrated through addition of alkali salts, CsPbBr3 and KPb2Br5, to the perovskite precursor ink for enabling homogeneous and highly crystalline large-area Cs0.15FA0.85Pb(I0.83Br0.17)3 (CsFA) perovskite films via scalable slot-die coating technique. X-ray photoelectron spectroscopy analysis reveals the segregation of potassium ions at SnO2/perovskite interface which serve as nucleation sites for the crystallization of perovskite layer. The uniformly slot-die coated CsFA films (100 cm2) from the additives containing precursor inks possess larger grains with enhanced optoelectronic properties and the corresponding devices display higher reproducibility and consistency. A champion device efficiency of 18.94% under 1 sun illumination for slot-die coated PSCs in n-type/intrinsic/p-type structure is demonstrated with improved stability with 82% of its initial efficiency tested at 65 °C for 1150 h. The slot-die coated methylammonium-free perovskite module with an active area of 57.5 cm2 shows an efficiency of 16.22% and retains 82% of its initial efficiency after 4800 h under 30% relative humidity without encapsulation.

AB - Typical fabrication methods for laboratory-scale (<1 cm2) perovskite solar cells (PSCs) are undeniably not scalable and the control of crystallization of large-area perovskite layer for commercial sized modules is also particularly challenging. Here, a seed-assisted crystallization approach is demonstrated through addition of alkali salts, CsPbBr3 and KPb2Br5, to the perovskite precursor ink for enabling homogeneous and highly crystalline large-area Cs0.15FA0.85Pb(I0.83Br0.17)3 (CsFA) perovskite films via scalable slot-die coating technique. X-ray photoelectron spectroscopy analysis reveals the segregation of potassium ions at SnO2/perovskite interface which serve as nucleation sites for the crystallization of perovskite layer. The uniformly slot-die coated CsFA films (100 cm2) from the additives containing precursor inks possess larger grains with enhanced optoelectronic properties and the corresponding devices display higher reproducibility and consistency. A champion device efficiency of 18.94% under 1 sun illumination for slot-die coated PSCs in n-type/intrinsic/p-type structure is demonstrated with improved stability with 82% of its initial efficiency tested at 65 °C for 1150 h. The slot-die coated methylammonium-free perovskite module with an active area of 57.5 cm2 shows an efficiency of 16.22% and retains 82% of its initial efficiency after 4800 h under 30% relative humidity without encapsulation.

KW - alkali additive

KW - large area

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KW - slot die coating

KW - solar module

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