In this research article, we carry out investigation on compensating the efficiency loss in thin-
film CIGS photovoltaic (PV) cell due to absorber coat depth reduction. We demonstrate that …

This article uses computational models to evaluate the potential of copper-indium-gallium-
diselenide (CIGS) thin film solar cells. The use of cadmium sulphide (CdS) renders the solar …

In this paper, we investigate a way to improve the performance of thin films CIGS-based
solar cells by optimizing their spectral responses. Band gap profile grading, aroused this last …

Iron oxide is a multifunctional material for many applications, including photovoltaic
technology. Iron oxide's phase and crystal structures could vary and be easy to control …

This research work focused on the optimization of CI (G) Se thin films using the hybrid
deposition method and the simulation of the CIGSe bilayer thin film solar cell (TFSC) by …

Abstract Copper-Indium-Gallium-diSelenide (CIGS) thin film solar cell is a promising
candidate for energy harvesting because of its high absorption coefficient and low cost …

The efficiency of CIGS (Copper Indium Gallium Selenide) solar cells has been significantly
improved by incorporating Graphene Oxide (GO) or Graphene into their structure …

Optimizing solar cell design is vital for boosting efficiency, cutting production costs, and
meeting the increasing demand for renewable energy solutions. Through meticulous …

Multi-junction solar cells are vital in develo** reliable, green, sustainable solar cells.
Consequently, the computational optimization of solar cell architecture has the potential to …

This paper presents a high performing Cu (In1− xGax) Se2 (CIGS) based solar cell that uses
naturally abundant and non-toxic InP (indium phosphide) as an electron transport layer and …