Abstract
This paper reports numerical investigation, using SCAPS-1D program, of the influence of Cu2ZnSnS4(the so-called CZTS) material features such as thickness, holes, and defects densities on the performances of ZnO:Al/i-ZnO/CdS/CZTS/Mo solar cells structure. We found that the electrical parameters are seriously affected, when the absorber thickness is lower than 600 nm, mainly due to recombination at CZTS/Molybdenum interface that causes the short-circuit current density loss of 3.6 mA/cm2. An additional source of recombination, inside the absorber layer, affects the short-circuit current density and produces a loss of about 2.1 mA/cm2above this range of absorber thickness. TheJ-Vcharacteristic shows that the performance of the device is also limited by a double diode behavior. This effect is reduced when the absorber layer is skinny. Our investigations showed that, for solar cells having a CZTS absorber layer of thin thickness and high-quality materials (defects density ~1015 cm−3), doping less than 1016 cm−3is especially beneficial. Such CZTS based solar cell devices could lead to conversion efficiencies higher than 15% and to improvement of about 100 mV on the open-circuit voltage value. Our results are in conformity with experimental reports existing in the literature.
Highlights
IntroductionOne of the hottest topics in photovoltaic (PV) field is the study of Cu2ZnSnS4 ( known as CZTS) based solar cells
Nowadays, one of the hottest topics in photovoltaic (PV) field is the study of Cu2ZnSnS4 based solar cells
Works existing in the literature show that the greater efficiencies of CZTS based solar cells have been obtained with thin CZTS layer [9, 14]
Summary
One of the hottest topics in photovoltaic (PV) field is the study of Cu2ZnSnS4 ( known as CZTS) based solar cells. Thin film of the kesterite compound CZTS is one of the most prospective materials to be used as solar cell absorber layer, due to its excellent optical properties (the band gap varies from 1.4 to 1.5 eV and the absorption coefficient is higher than 104 cm−1 [1,2,3,4]), as well as its constituents that are nontoxic and very abundant naturally. The results proposed in this study are a useful guideline for design of high performances CZTS based solar cells
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