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J. Korean Ceram. Soc. > Volume 61(6); 2024 > Article
Journal of the Korean Ceramic Society 2024;61(6): 1058-1069.
doi: https://doi.org/10.1007/s43207-024-00405-w
Optimization of current density of dye-sensitized solar cells by Cd substitution in the electron transport layer
M. I. Yasin1, Ghulam M. Mustafa2 , M. I. Khan3, Badriah S. Almutairi4, Shamsa Kanwal3, A. Dahshan5
1Acadiana Criminalistics Laboratory, New Iberia, LA, USA
2Division of Science and Technology, Department of Physics, University of Education, Lahore, 54770, Punjab, Pakistan
3Department of Physics, University of Lahore, Lahore, 53700, Pakistan
4Department of Physics, College of Science, Princess Nourah bint Abdulrahman University, P.O. Box 84428, 11671, Riyadh, Saudi Arabia
5Department of Physics, College of Science, King Khalid University, 61413, Abha, Saudi Arabia
Correspondence  Badriah S. Almutairi ,Email: bsalmutairi@pnu.edu.sa
Received: November 6, 2024; Revised: March 25, 2024   Accepted: April 20, 2024.  Published online: July 12, 2024.
ABSTRACT
This study addresses the growing need for energy worldwide and highlights the necessity of switching to sustainable options like dye-sensitized solar cells (DSSCs), which are well known for their affordability, ease of use, and competitive efficiency. Utilizing the sol–gel method, we synthesized diverse samples, including pristine TiO2, Cd-doped TiO2, and their heterostructures (TiO2@Cd–TiO2, Cd–TiO2@TiO2). A comprehensive evaluation encompassed structural, morphological, optical properties, and photovoltaic behavior through techniques like XRD, SEM, and UV–visible spectroscopy. Structural analysis highlighted the development of the anatase phase in all samples. The particles exhibited spherical grains, and heterostructures displayed dispersed particles with large sizes, enhancing electronic transport and dye absorption for efficient DSSCs. Cd–TiO2@TiO2 exhibits the shortest bandgap (3.24 eV). Notably, Cd–TiO2@TiO2 demonstrated favorable photovoltaic characteristics, including Jsc (8.65 ± 0.2 mA -cm2), Voc (0.78 ± 0.2 V), FF (0.718 ± 0.1), and efficiency (4.848 ± 0.5). Electrochemical impedance spectroscopy (EIS) of TiO2@Cd–TiO2 and Cd–TiO2@TiO2 DSSCs unveiled distinct semicircles, indicating reduced charge transfer resistance and enhanced efficiency compared to TiO2-only DSSCs. This research contributes vital insights for advancing sustainable and efficient solar cell technologies.
Key words: Heterostructures · Anatase phase · Solar cell · Optical properties · Photovoltaic characteristics
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