2024
DOI: 10.1016/j.mset.2023.10.001
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Investigating the influence of absorber layer thickness on the performance of perovskite solar cells: A combined simulation and impedance spectroscopy study

A. Mortadi,
E El Hafidi,
M. Monkade
et al.
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Cited by 9 publications
(2 citation statements)
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“…This phenomenon is attributed to larger production of e --h + pairs as the thickness increases, with wide spectrum range being absorbed by the layers. The larger production of charges leads to larger recombination as well as collisions leading to formation of series resistance at the interface that leads to decrease in V oc [46,47]. The FF and efficiency continuously increases with thickness, figures 4(c) and (d), as both parameters are partially dependent on V oc and J sc values, as per equations [48],…”
Section: The Impact Of Htl and Etl Thickness Variationsmentioning
confidence: 90%
“…This phenomenon is attributed to larger production of e --h + pairs as the thickness increases, with wide spectrum range being absorbed by the layers. The larger production of charges leads to larger recombination as well as collisions leading to formation of series resistance at the interface that leads to decrease in V oc [46,47]. The FF and efficiency continuously increases with thickness, figures 4(c) and (d), as both parameters are partially dependent on V oc and J sc values, as per equations [48],…”
Section: The Impact Of Htl and Etl Thickness Variationsmentioning
confidence: 90%
“…Short-circuit current and open-circuit voltage, two important solar cell metrics, can generally rise with an increase in absorber thickness. This rise is explained by the solar cell's increased ability to absorb light from the sun, which produces more charge carriers [68]. Even though a thicker layer facilitates the absorption of a greater number of photons, generating more electron-hole pairs, it concurrently introduces a rise in the density of defects that function as recombination centers.…”
Section: Perovskite Layer Optimizationmentioning
confidence: 99%