Numerical Modeling and Simulation of CIGS-Based Solar Cells with ZnS Buffer Layer

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Open Journal of Modelling and Simulation

ISSN Print: 2327-4018
ISSN Online: 2327-4026
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"Numerical Modeling and Simulation of CIGS-Based Solar Cells with ZnS Buffer Layer"
written by Adama Sylla, Siaka Touré, Jean-Pierre Vilcot,
published by Open Journal of Modelling and Simulation, Vol.5 No.4, 2017

has been cited by the following article(s):

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[2]	Simulation and investigation of environmentally friendly CIGS solar cell
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[3]	شبیه‌سازی و بررسی سلول خورشیدی CIGS سازگار با محیط زیست‎
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[4]	Simulation of CZTS-based thin-film solar cells (Simulation des cellules solaires en couches minces à base de CZTS)
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[5]	Design and numerical analysis of CIGS-based solar cell with V2O5 as the BSF layer to enhance photovoltaic performance
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[6]	Performance up-gradation of CIGS solar cell using Ag2S quantum dot as buffer layer
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[7]	Improving the absorption spectrum and performance of CIGS solar cells by optimizing the stepped band gap profile of the multilayer absorber
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[8]	Modeling and Performance Analysis of Highly Efficient Copper Indium Gallium Selenide Solar Cell with Cu2O Hole Transport Layer Using Solar Cell Capacitance …
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[9]	Selenization process in simple spray-coated CIGS film
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[10]	Study of hybrid organic-inorganic solar cells based on perovskite materials (Etude de cellules solaires hybrides organiques-inorganiques à base de matériaux …
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[11]	Calculation of Band Alignment and Interfacial Recombination in CZTS-Based Solar Cell
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[12]	Theoretical analysis of the effect of the interfacial mose2 layer in cigs-based solar cells
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[13]	Numerical analysis of thin film Cu2InGaSe4 solar cells design
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[14]	Impact of doping concentration, thickness, and band-gap on individual layer efficiency of CIGS solar cell
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[15]	Numerical study of a high‑performance thin film CIGS solar cell with a-Si and MoTe2 hole transport layer
	2021

[16]	A study of copper–tungsten oxide materials for photovoltaic application
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[17]	Application Scope of ZnSe-In2S2 as a Dual Buffer Layer as a Substitute of CdS Buffer Layer in CIGS Based Solar Cell
	International Journal of Innovative Science and Research Technology, 2020

[18]	Performance enhancement of CIGS-based solar cells by incorporating an ultrathin BaSi 2 BSF layer
	2020

[19]	Analysis by Numerical Simulation of the Effect of Interfacial Defects on CZTS Solar Cell
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[20]	Photoelectron spectroscopic studies of alkali-treated Cu (In, Ga) Se2 absorbers and simulation studies of solar cell performances
	2019

[21]	Photoelectron Spectroscopic Studies of Alkali-Treated Cu(In,Ga)Se2 Absorbers and Simulation Studies of Solar Cell Performances
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[22]	Multistage Degradation Mechanisms in Cu(In, Ga)Se2 Photovoltaic Modules Prepared by Co-Evaporation: Toward High Performances and Enhanced Stability
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[23]	Effect of ZnS, iZnO, dZnO and Cu(In,Ga)Se2 thickness on the performance of simulated Mo/Cu(In,Ga)Se2/ZnS/iZnO/dZnO solar cell
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[24]	One-dimensional modeling for an investigation into parameter optimization, crossover and red-kink behavior of ZnMgO buffer layer Cd-free Cu(In,Ga)Se2 solar cell
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[25]	vorheriger Artikel A novel proposal for all optical half-subtracto... nächster Artikel Vortex mode excitation in a multimode fiber by...
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[27]	Optimization of Baseline Parameters and Numerical Simulation for Cu(In, Ga)Se2Solar Cell
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[28]	Theoretical analysis of the effects of band gaps and the conduction band offset of ZnS-CIGS layers, as well as defect layer thickness
	Int. J. Sci. Res, 2017

[29]	Optical and Structural Characteristics of Rf-Sputtered Znse Thin Film and the Numerical Simulation of Cigs Solar Cell in the Presence of Znse Buffer

[1]	Comprehensive study on the physical properties of CuO-ZnO thin films: Insights into solar cell simulation Optical Materials, 2024 DOI:10.1016/j.optmat.2024.115887

[2]	Solar power conversion: CuI hole transport layer and Ba3NCl3 absorber enable advanced solar cell technology boosting efficiency over 30% RSC Advances, 2024 DOI:10.1039/D4RA03695F

[3]	Increasing the efficiency of CIGS solar cells due to the reduced graphene oxide field layer of the back surface Semiconductor Physics, Quantum Electronics and Optoelectronics, 2024 DOI:10.15407/spqeo27.03.337

[4]	A comprehensive numerical study of bilayer SnSe/SnS absorber based solar cells Current Applied Physics, 2024 DOI:10.1016/j.cap.2024.09.011

[5]	Design and numerical analysis of CIGS-based solar cell with V2O5 as the BSF layer to enhance photovoltaic performance AIP Advances, 2023 DOI:10.1063/5.0138354

[6]	Modeling and Performance Analysis of Highly Efficient Copper Indium Gallium Selenide Solar Cell with Cu 2 O Hole Transport Layer Using Solar Cell Capacitance Simulator in One Dimension physica status solidi (a), 2022 DOI:10.1002/pssa.202100512

[7]	Improving the absorption spectrum and performance of CIGS solar cells by optimizing the stepped band gap profile of the multilayer absorber Solar Energy, 2022 DOI:10.1016/j.solener.2022.05.037

[8]	Selenization process in simple spray-coated CIGS film Ceramics International, 2022 DOI:10.1016/j.ceramint.2022.04.015

[9]	A study of copper–tungsten oxide materials for photovoltaic application World Journal of Engineering, 2022 DOI:10.1108/WJE-04-2021-0241

[10]	Selenization process in simple spray-coated CIGS film Ceramics International, 2022 DOI:10.1016/j.ceramint.2022.04.015

[11]	Impact of doping concentration, thickness, and band-gap on individual layer efficiency of CIGS solar cell Functional Materials Letters, 2021 DOI:10.1142/S179360472151022X

[12]	A study of copper–tungsten oxide materials for photovoltaic application World Journal of Engineering, 2021 DOI:10.1108/WJE-04-2021-0241

[13]	Performance enhancement of CIGS-based solar cells by incorporating an ultrathin BaSi2 BSF layer Journal of Computational Electronics, 2020 DOI:10.1007/s10825-019-01433-0

[14]	Multistage Degradation Mechanisms in Cu(In, Ga)Se2 Photovoltaic Modules Prepared by Co-Evaporation: Toward High Performances and Enhanced Stability ACS Applied Energy Materials, 2019 DOI:10.1021/acsaem.9b01155

[15]	One-dimensional modeling for an investigation into parameter optimization, crossover and red-kink behavior of ZnMgO buffer layer Cd-free Cu(In,Ga)Se2 solar cell Applied Physics A, 2019 DOI:10.1007/s00339-019-2676-8

[16]	Effect of ZnS, iZnO, dZnO and Cu(In,Ga)Se2 thickness on the performance of simulated Mo/Cu(In,Ga)Se2/ZnS/iZnO/dZnO solar cell Optical and Quantum Electronics, 2019 DOI:10.1007/s11082-019-1983-9

[17]	Multistage Degradation Mechanisms in Cu(In, Ga)Se2 Photovoltaic Modules Prepared by Co-Evaporation: Toward High Performances and Enhanced Stability ACS Applied Energy Materials, 2019 DOI:10.1021/acsaem.9b01155

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