Optimizing solar cells: a comparative study of delafossite HTLs with CsPbI3 and CsSnI3 for enhanced stability and efficiency

Siddique, A. A.; Rasel, M. S.; Haque, Md. Ismail; Helal, S. Bin; Saimon, S. A.; Hannan, S.; Bhuyan, Muhibul Haque; Paul, L. C.

Please use this identifier to cite or link to this item: http://dspace.aiub.edu:8080/jspui/handle/123456789/2787

Title:	Optimizing solar cells: a comparative study of delafossite HTLs with CsPbI3 and CsSnI3 for enhanced stability and efficiency
Authors:	Siddique, A. A. Rasel, M. S. Haque, Md. Ismail Helal, S. Bin Saimon, S. A. Hannan, S. Bhuyan, Muhibul Haque Paul, L. C.
Keywords:	Perovskite solar cell Delafossite based solar cell High performance High efficiency Stability
Issue Date:	3-Jun-2025
Publisher:	Virtual Company of Physics SRL
Citation:	A. A. Siddique, M. S. Rasel, M. I. Haque, S. Bin. Helal, S. A. Saimon, S. Hannan, Muhibul Haque Bhuyan, and L. C. Paul, “Optimizing solar cells: a comparative study of delafossite HTLs with CsPbI3 and CsSnI3 for enhanced stability and efficiency,” Journal of Ovonic Research, vol. 21, no. 3, pp. 319-333, 3 May-June 2025, Virtual Company of Physics SRL, Bucharest, Romania. DOI: https://doi.org/10.15251/JOR.2025.213.319.
Abstract:	This research replaces conventional hole transport layers (HTLs) like Spiro-OMeTAD, with Cu-based delafossite materials for improved performance. CsSnI₃ and CsPbI₃ were used as absorber layers to enhance perovskite solar cells (PSCs) stability. Various PSCs were optimized by adjusting perovskite thickness, HTL thickness, and temperature to determine their influence on efficiency. The results were examined to determine the highest-performing PSC, offering insights into stable and cost-effective solar cell designs for better energy harvesting.
Description:	Collaborative research work among multi-university teachers.
URI:	http://dspace.aiub.edu:8080/jspui/handle/123456789/2787
ISSN:	1584 - 9953
Appears in Collections:	Publications From Faculty of Engineering

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