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Developing Lead-Free Perovskite-Based Solar Cells with Planar Structure in Confined Mode Arrangement Using SCAPS-1D

Mohammed Alamin Salih / Mustafa Abbas Mustafa / Bashria A. A. Yousef

In this work, the SCAPS-1D solar cell simulation software was used to model, simulate and track perovskite solar cells (PSCs) with planar structure, in a confined mode arrangement (FTO/TiO/CH₃NH₃PbI₃/CH₃NH₃GeI₃/CH₃NH₃SnI₃/CuO₂). Different compositions, absorber thickness, electron affinity, and absorber doping concentration were investigated. Different hole transport materials (CuO₂, CuI, NiO, PEDOT: PSS) were used. The best result for CH₃NH₃PbI₃ with CuO₂ hole transport material (HTM) showed an overall efficiency of 18.28%, FF of 62.71%, Jsc of 25 mA/cm², and Voc of 1.1 V. For tin lead-free halide CH₃NH₃SnI₃, the best results showed an overall efficiency of 24.54%, FF of 71.30%, Jsc of 34 mA/cm², and Voc of 0.99 V. Lead-free PSC has an advantage over lead PSC due to lead toxicity. However, a tin-based cell is unstable, hence, the p-type carrier doping concentration of tin-based perovskite PCE of the device can be improved due to the better and stronger combined electric field.

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Developing Lead-Free Perovskite-Based Solar Cells with Planar Structure in Confined Mode Arrangement Using SCAPS-1D

Mohammed Alamin Salih / Mustafa Abbas Mustafa / Bashria A. A. Yousef

In this work, the SCAPS-1D solar cell simulation software was used to model, simulate and track perovskite solar cells (PSCs) with planar structure, in a confined mode arrangement (FTO/TiO/CH₃NH₃PbI₃/CH₃NH₃GeI₃/CH₃NH₃SnI₃/CuO₂). Different compositions, absorber thickness, electron affinity, and absorber doping concentration were investigated. Different hole transport materials (CuO₂, CuI, NiO, PEDOT: PSS) were used. The best result for CH₃NH₃PbI₃ with CuO₂ hole transport material (HTM) showed an overall efficiency of 18.28%, FF of 62.71%, Jsc of 25 mA/cm², and Voc of 1.1 V. For tin lead-free halide CH₃NH₃SnI₃, the best results showed an overall efficiency of 24.54%, FF of 71.30%, Jsc of 34 mA/cm², and Voc of 0.99 V. Lead-free PSC has an advantage over lead PSC due to lead toxicity. However, a tin-based cell is unstable, hence, the p-type carrier doping concentration of tin-based perovskite PCE of the device can be improved due to the better and stronger combined electric field.

Developing Lead-Free Perovskite-Based Solar Cells with Planar Structure in Confined Mode Arrangement Using SCAPS-1D

Mohammed Alamin Salih / Mustafa Abbas Mustafa / Bashria A. A. Yousef

In this work, the SCAPS-1D solar cell simulation software was used to model, simulate and track perovskite solar cells (PSCs) with planar structure, in a confined mode arrangement (FTO/TiO/CH₃NH₃PbI₃/CH₃NH₃GeI₃/CH₃NH₃SnI₃/CuO₂). Different compositions, absorber thickness, electron affinity, and absorber doping concentration were investigated. Different hole transport materials (CuO₂, CuI, NiO, PEDOT: PSS) were used. The best result for CH₃NH₃PbI₃ with CuO₂ hole transport material (HTM) showed an overall efficiency of 18.28%, FF of 62.71%, Jsc of 25 mA/cm², and Voc of 1.1 V. For tin lead-free halide CH₃NH₃SnI₃, the best results showed an overall efficiency of 24.54%, FF of 71.30%, Jsc of 34 mA/cm², and Voc of 0.99 V. Lead-free PSC has an advantage over lead PSC due to lead toxicity. However, a tin-based cell is unstable, hence, the p-type carrier doping concentration of tin-based perovskite PCE of the device can be improved due to the better and stronger combined electric field.

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Title:

Developing Lead-Free Perovskite-Based Solar Cells with Planar Structure in Confined Mode Arrangement Using SCAPS-1D

Contributors:

Mohammed Alamin Salih (author) / Mustafa Abbas Mustafa (author) / Bashria A. A. Yousef (author)

Published in:

Sustainability, Vol 15, Iss 2, p 1607 (2023)

Publication date:

2023

ISSN:

DOI:

https://doi.org/10.3390/su15021607

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

Unknown

Keywords:

perovskite , solar cell , SCAPS , numerical simulation , hole transport material (HTM) , Environmental effects of industries and plants , TD194-195 , Renewable energy sources , TJ807-830 , Environmental sciences , GE1-350

Metadata by DOAJ is licensed under CC BY-SA 1.0

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