Evaluating the performance of efficient Cu2NiSnS4 solar cell—A two stage theoretical attempt and comparison to experiments
In this work, copper nickel tin sulfide (Cu 2 NiSnS 4) as an encouraging alternative absorber
for thin-film photovoltaic devices is explored. Here, the Cu 2 NiSnS 4 (CNTS) absorber …
for thin-film photovoltaic devices is explored. Here, the Cu 2 NiSnS 4 (CNTS) absorber …
Design of n-CdS/p-CuInTe2/p + -MoS2 thin film solar cell with a power conversion efficiency of 34.32%
Copper indium telluride (CuInTe_2)-based n-CdS/p-CuInTe_2/p+-MoS_2 double-
heterostructure solar cell has been investigated numerically by solar cell capacitance …
heterostructure solar cell has been investigated numerically by solar cell capacitance …
Performance evaluation of ZnSnN2 solar cells with Si back surface field using SCAPS-1D: A theoretical study
The earth-abundant semiconductor zinc tin nitride (ZnSnN 2) has garnered significant
attention as a prospective material in photovoltaic and lighting applications, primarily due to …
attention as a prospective material in photovoltaic and lighting applications, primarily due to …
Towards the enhanced efficiency of ultrathin Sb2Se3 based solar cell with cubic silicon carbide (3C–SiC) buffer layer
Abstract Antimony selenide (Sb 2 Se 3) is a sustainable candidate for renewable energy
production. Photovoltaic cells based on Sb 2 Se 3 has grown worldwide interest and …
production. Photovoltaic cells based on Sb 2 Se 3 has grown worldwide interest and …
Simulation of new thin film Zn (O, S)/CIGS solar cell with bandgap grading
F Elhady, TM Abdolkader… - Engineering Research …, 2023 - iopscience.iop.org
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 …
candidate for energy harvesting because of its high absorption coefficient and low cost …
Tetrahedrite copper antimony sulfide (Cu12Sb4S13) thin films for photovoltaic and self-powered photodetector applications grown by single step ultrasonic spray …
This work reports in situ growth of tetrahedrite Cu 12 Sb 4 S 13 thin films via ultrasonic spray
pyrolysis using a non-aqueous solution containing CuCl 2, SbCl 3 and C 2 H 5 NS. The thin …
pyrolysis using a non-aqueous solution containing CuCl 2, SbCl 3 and C 2 H 5 NS. The thin …
Numerical modeling and extensive analysis of an extremely efficient RbGeI 3-based perovskite solar cell by incorporating a variety of ETL and HTL materials to …
The immense demand for electrical energy motivated us to manipulate solar energy by
means of conversion through solar cells (SCs). Advancements in photovoltaic (PV) …
means of conversion through solar cells (SCs). Advancements in photovoltaic (PV) …
Efficiency Enhancement by BSF Optimization on Cu (In1−x, Gax) Se2 Solar Cells with Tin (IV) Sulfide Buffer Layer
This paper aims to investigate the photovoltaic performance of copper indium gallium
selenide (CIGS) solar cells using SCAPS-1D (Solar Cell Capacitance Simulator in One …
selenide (CIGS) solar cells using SCAPS-1D (Solar Cell Capacitance Simulator in One …
Optimization of CdS-free non-toxic electron transport layer for Sb2S3-based solar cell with notable enhanced performance
S Maqsood, Z Ali, K Ali, RB Awan, Y Arooj… - Journal of Computational …, 2023 - Springer
In this investigation, we develop CdS-free non-toxic thin-film solar cell structure with
antimony sulfide (Sb2S3) as an absorber material. Sb2S3 has found to be a promising …
antimony sulfide (Sb2S3) as an absorber material. Sb2S3 has found to be a promising …
Modeling of improved efficiency and spectral response of a Si-based heterojunction solar cell by using CeO2 as a buffer layer
Z Ali, K Ali - Journal of Computational Electronics, 2022 - Springer
In the present work, a silicon-based single heterojunction solar cell is analyzed for its
potentially low cost and high efficiency. To obtain an optimal device structure of CeO2/p-Si …
potentially low cost and high efficiency. To obtain an optimal device structure of CeO2/p-Si …