Simulation study of monolithic MoSe2/CIGS tandem solar cells

Simulation study of monolithic MoSe2/CIGS tandem solar cells

Abstract This article aims to study MoSe2/CIGS tandem solar cells employing SCAPS-1D computational package based on ant colony algorithm. The simulation of Monolithic MoSe2/CIGS tandem solar cells has been implemented successfully by employing the Matlab/Simulink. The power output of the Monolithic...

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Main Authors: B. Zaidi, C. Shekhar, B. Hadjoudja, S. Gagui, S. Zahra, M. A. Saeed
Format: Article
Language:English
Published: Springer 2021-08-01
Series:Discover Materials
Subjects:
Tandem solar cells
SCAPS-1D
Simulation
MoSe2
Online Access:https://doi.org/10.1007/s43939-021-00016-w
id doaj-fdcadfd5cca44932bb16f04a4f1671bd
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spelling doaj-fdcadfd5cca44932bb16f04a4f1671bd2021-08-15T11:08:35ZengSpringerDiscover Materials2730-77272021-08-01111510.1007/s43939-021-00016-wSimulation study of monolithic MoSe2/CIGS tandem solar cellsB. Zaidi0C. Shekhar1B. Hadjoudja2S. Gagui3S. Zahra4M. A. Saeed5Department of Physics, Faculty of Matter Sciences, University of Batna 1Department of Applied Physics, Amity University GurgaonLaboratory of Semiconductors, Department of Physics, University of Badji-MokhtarLaboratory of Semiconductors, Department of Physics, University of Badji-MokhtarDepartment of Physics, Division of Science & Technology, University of EducationDepartment of Physics, Division of Science & Technology, University of EducationAbstract This article aims to study MoSe2/CIGS tandem solar cells employing SCAPS-1D computational package based on ant colony algorithm. The simulation of Monolithic MoSe2/CIGS tandem solar cells has been implemented successfully by employing the Matlab/Simulink. The power output of the Monolithic MoSe2/CIGS tandem modules increases by the solar irradiations during the first few days of operation. The J–V characteristic and average daily energy production throughout the year has been calculated. The results show 80.71% FF and 19.29% efficiency of the solar cell. The other parameter for the MoSe2/CIGS tandem solar cell are Voc = 0.62 V; Jsc = 38.69 mA/cm2.https://doi.org/10.1007/s43939-021-00016-wTandem solar cellsSCAPS-1DSimulationMoSe2
collection DOAJ
language English
format Article
sources DOAJ
author B. Zaidi
C. Shekhar
B. Hadjoudja
S. Gagui
S. Zahra
M. A. Saeed
spellingShingle B. Zaidi
C. Shekhar
B. Hadjoudja
S. Gagui
S. Zahra
M. A. Saeed
Simulation study of monolithic MoSe2/CIGS tandem solar cells
Discover Materials
Tandem solar cells
SCAPS-1D
Simulation
MoSe2
author_facet B. Zaidi
C. Shekhar
B. Hadjoudja
S. Gagui
S. Zahra
M. A. Saeed
author_sort B. Zaidi
title Simulation study of monolithic MoSe2/CIGS tandem solar cells
title_short Simulation study of monolithic MoSe2/CIGS tandem solar cells
title_full Simulation study of monolithic MoSe2/CIGS tandem solar cells
title_fullStr Simulation study of monolithic MoSe2/CIGS tandem solar cells
title_full_unstemmed Simulation study of monolithic MoSe2/CIGS tandem solar cells
title_sort simulation study of monolithic mose2/cigs tandem solar cells
publisher Springer
series Discover Materials
issn 2730-7727
publishDate 2021-08-01
description Abstract This article aims to study MoSe2/CIGS tandem solar cells employing SCAPS-1D computational package based on ant colony algorithm. The simulation of Monolithic MoSe2/CIGS tandem solar cells has been implemented successfully by employing the Matlab/Simulink. The power output of the Monolithic MoSe2/CIGS tandem modules increases by the solar irradiations during the first few days of operation. The J–V characteristic and average daily energy production throughout the year has been calculated. The results show 80.71% FF and 19.29% efficiency of the solar cell. The other parameter for the MoSe2/CIGS tandem solar cell are Voc = 0.62 V; Jsc = 38.69 mA/cm2.
topic Tandem solar cells
SCAPS-1D
Simulation
MoSe2
url https://doi.org/10.1007/s43939-021-00016-w
work_keys_str_mv AT bzaidi simulationstudyofmonolithicmose2cigstandemsolarcells
AT cshekhar simulationstudyofmonolithicmose2cigstandemsolarcells
AT bhadjoudja simulationstudyofmonolithicmose2cigstandemsolarcells
AT sgagui simulationstudyofmonolithicmose2cigstandemsolarcells
AT szahra simulationstudyofmonolithicmose2cigstandemsolarcells
AT masaeed simulationstudyofmonolithicmose2cigstandemsolarcells
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