10.57647/j.jtap.2024.si-AICIS23.18
Theoretical calculation of the electronic current density in ruthenium 620 contact with TiO2 semiconductor in propanol solvent
- Hadi J. M. Al-Agealy*
1
- Department of Physics, College of Education for Pure Science -Ibn Al-Haitham, University of Baghdad, Baghdad, Iraq
- Ministry of Education, General Directorate of Wasit Education, Iraq
- Center of Education, Researches-studies, Ministry of Education, Iraq
Published in Issue 2024-06-15
This work is licensed under a Creative Commons Attribution 4.0 International License.
How to Cite
1.
Al-Agealy HJM, Al-Hasan HHD, Muslim RAH, Hassooni MA. Theoretical calculation of the electronic current density in ruthenium 620 contact with TiO2 semiconductor in propanol solvent. J Theor Appl phys. 2024 Jun. 15;18. Available from: https://oiccpress.com/jtap/article/view/8023
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Abstract
In this study, a theoretical model was presented to calculate current and current density to investigate the efficiency of the heterogeneous ruthenium 620-TiO2 device using a propanol solvent. This work examines the effect of concentration carriers on the current density and performance of ruthenium 620-TiO2 devices for dye-sensitized solar cells (DSSCs) in the presence of a propanol solvent based on electron transfer theory. Quantum electron transfer theory is used to describe current cross-linked 620-TiO2 ruthenium devices. When the concentration is increased from 1.5Ã1024 mâ3 to 2.5Ã1024 mâ3, the current density and current show a significant shift to an increase of approximately 1.66. The fill factor does not change significantly, but there are efficiency shifts of about 1.004 with increasing concentration carrier taken from the experimental literature from 1.5Ã1024 mâ3 to 2.5Ã1024 mâ3.Keywords
- Current density,
- Propanol solvent,
- Ruthenium 620,
- TiO2