Abstract
In this study, Aluminum oxide (Al2O3) was utilized as a dopant in the crystal structure of titanium dioxide (TiO2) to enhance the photovoltaic efficiency of n-i-p type organic solar cells. These solar cells were fabricated using a thin film of TiO2 doped with Al2O3, serving as the electron transport layer. TiO2 thin films were synthesized using different Al2O3 concentrations (0 %, 0.25 %, 0.5 %, and 1 % w/V) through the spin-coating technique. A blend of poly(3-hexylthiophene) and phenyl C61-butyric acid methyl ester (P3HT:PC61BM) was spin-cast at 600 rpm for 30 s, forming the solar cells active layer. Organic solar cells with an n-i-p structure were constructed, following the configuration FTO/TiO2:Al2O3/P3HT:PC61BM/MoO3/Ag. Investigations have been conducted to examine how varying concentrations of Al2O3 doping affect the photovoltaic performance of the solar cells. The power conversion efficiency (PCE) of the produced solar cells showed an increase from 2.74 % to 3.53 % at a 0.5 % Al2O3 doping concentration. The solar cells performance has been improved by adjusting the concentration of Al2O3. The findings show that the addition of Al2O3 to TiO2 films improves power conversion efficiency.
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