Artificial neural network assisted numerical analysis on performance enhancement of Sb2 (S, Se) 3 solar cell with SnS as HTL
This paper presents the design and investigation of a highly efficient photovoltaic (PV)
device comprising antimony sulfide-selenide (Sb 2 (S, Se) 3) absorber utilizing the SCAPS …
device comprising antimony sulfide-selenide (Sb 2 (S, Se) 3) absorber utilizing the SCAPS …
Investigation on the Performance Enhancement of Heterojunction SnS Thin-Film Solar Cell with a Zn3P2 Hole Transport Layer and a TiO2 Electron Transport Layer
SRA Ahmed - Energy & Fuels, 2023 - ACS Publications
The tin sulfide (SnS) absorber is becoming more attractive for application in high-efficiency,
low-cost, and stable thin-film photovoltaic (PV) technology. In this work, zinc phosphide …
low-cost, and stable thin-film photovoltaic (PV) technology. In this work, zinc phosphide …
A numerical approach to maximizing efficiency in Sb2Se3 solar cells by using CuS as a hole transport material
A El Khalfi, M Ouhadou, I Rais, F Essahlaoui… - The European Physical …, 2023 - Springer
The current paper uses the SCAPS-1D software to investigate the performance of the Al/n-
ITO/n-CdS/p-Sb2Se3/p-CuS/Ni solar cell. After adjusting the simulated and experimental J …
ITO/n-CdS/p-Sb2Se3/p-CuS/Ni solar cell. After adjusting the simulated and experimental J …
Utilizing machine learning to enhance performance of thin-film solar cells based on Sb 2 (S x Se 1− x) 3: investigating the influence of material properties
Antimony chalcogenides (Sb2 (SxSe1− x) 3) have drawn attention as a potential
semiconducting substance for heterojunction photovoltaic (PV) devices due to the …
semiconducting substance for heterojunction photovoltaic (PV) devices due to the …
Simulation study of cadmium-free CIGS solar cell for efficiency enhancement by minimizing recombination losses through back surface field mechanism
Thin-film photovoltaic cells provide benefits over conventional first-generation technology,
including lighter weight, greater flexibility, and lower power generation costs. Chalcogenide …
including lighter weight, greater flexibility, and lower power generation costs. Chalcogenide …
An innovative approach to design readily synthesizable polymers for all-polymer solar cells
NS Alsaiari, MH Tahir, A Hussain, N Sultan… - Chemical Physics, 2024 - Elsevier
The communalization of all-polymer solar cells depends on the cost of active layer materials.
We have introduced a framework to find the easily synthesizable polymers. Breaking …
We have introduced a framework to find the easily synthesizable polymers. Breaking …
Simulating the Effect of Inserting Sb2S3 as Hole Transport Layer on SnS-Based Thin-Film Solar Cells
Tin sulfide (SnS) absorbers have received considerable attention for their application in
highly efficient, inexpensive, and stable thin-film solar cell (TFSC) technology. The present …
highly efficient, inexpensive, and stable thin-film solar cell (TFSC) technology. The present …
Optimizing CuBi2O4 Solar Cells with PCBM Electron Transport Layer: A Comprehensive Simulation Study Achieving 32.16% Efficiency
M Panachikkool, ET Aparna, T Pandiyarajan - Journal of Electronic …, 2024 - Springer
This work presents the design, simulation, and evaluation of photovoltaic (PV) parameters
for a solar cell structure (Au/CuBi2O4/PCBM/ITO/Ag) with copper bismuth oxide (CuBi2O4) …
for a solar cell structure (Au/CuBi2O4/PCBM/ITO/Ag) with copper bismuth oxide (CuBi2O4) …
Influence of Polar-PVDF Interfaces Upon Organic Ferroelectric Dye-Sensitized Solar Cell Characteristics
Recombination of charge carriers is the major issue for the sustainable operation of dye-
sensitized solar cells (DSSC). Generally, an external voltage bias is necessary to efficiently …
sensitized solar cells (DSSC). Generally, an external voltage bias is necessary to efficiently …
Numerical modeling and analysis of FeS2-based solar cell employing CuBi2O4 as back surface field layer
This research explores a novel design for thin-film solar cells, featuring FeS2 as the
absorber layer, CuBi2O4 as the back surface field (BSF) layer, and GaAs as the buffer layer …
absorber layer, CuBi2O4 as the back surface field (BSF) layer, and GaAs as the buffer layer …