2020
DOI: 10.1007/s10854-020-03024-3
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Comparative studies of CdS thin films by chemical bath deposition techniques as a buffer layer for solar cell applications

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Cited by 96 publications
(52 citation statements)
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“…Three diffraction peaks at 2θ value of 13.20°, 15° and 25° corresponding to (002), (002) The influence of thickness of CdS films on the crystallite size (D), dislocation density (δ), lattice strain (ε) and number of crystallites per unit area (N) were also studied and have been shown in Table 1. The crystallite size (D) in the CdS film has been estimated utilizing the Scherrer equation [33,34].…”
Section: Xrd Analysis Of Thickness-dependent Crystalline Properties Omentioning
confidence: 99%
See 1 more Smart Citation
“…Three diffraction peaks at 2θ value of 13.20°, 15° and 25° corresponding to (002), (002) The influence of thickness of CdS films on the crystallite size (D), dislocation density (δ), lattice strain (ε) and number of crystallites per unit area (N) were also studied and have been shown in Table 1. The crystallite size (D) in the CdS film has been estimated utilizing the Scherrer equation [33,34].…”
Section: Xrd Analysis Of Thickness-dependent Crystalline Properties Omentioning
confidence: 99%
“…The influence of film thickness on n and k needs to be understood in details as these parameters are strongly associated with the electronic polarization of particles for the optical materials [64]. The reflectance R (= 1 − absorbance − transmittance) [65] of a film having a complex refractive index of n*(= n + ik) is given by [66] The absorption coefficient α was calculated using Beer Lambert's formula [67] and the extinction coefficient of the CdS film from the following equation [34].…”
Section: Refractive Index and Extinction Coefficient Of Cds Thin Filmsmentioning
confidence: 99%
“…Recently, there has been a dramatic increase in the global demand for renewable and green energy sources due to the exhaustion and environmental issues associated with conventional energy sources, such as fossil fuels and nuclear energy ( Rego de Vasconcelos and Lavoie, 2019 ; Ashok et al, 2020 ; Lin et al, 2020 ; Subhan et al, 2020 ; Tiwari et al, 2020 ). In this regard, solar energy, a low-cost, renewable, naturally abundant and clean energy source, has attracted enormous research effort as a promising alternative to traditional energy sources ( Subramanyam et al, 2019 ; Zhong et al, 2020 ; Rabaia et al, 2021 ).…”
Section: Introductionmentioning
confidence: 99%
“…For these reasons, extensive research is being done on the alternative buffer layer, such as Zinc sulfides, oxides, and selenides [23][24][25][26]. Like CdS, zinc selenide (ZnSe) is an n-type semiconductor but with a wide bandgap and the most promising material to replace CdS [27][28][29][30]. The bandgap of ZnSe is E g ~2.9 𝑒𝑉 which is greater than the CdS E g ~2.4 𝑒𝑉, that means more light is passed to the CIGS absorber layer and the larger number of photocarriers will be generated increasing efficiency.…”
Section: Introductionmentioning
confidence: 99%