High-efficiency perovskite photovoltaic system performance by molecular dynamics method: Optimizing electron transport thicknesses, hole transport, and anti-reflector layers of the sustainable energy materials

The perovskite solar cell was modeled with the assistance of the molecular dynamics (MD) method to propose a superior configuration for perovskite solar cells and high efficiency for longtime use under severe or unsafe operating conditions. To achieve this aim, several materials and alignments were...

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Bibliographic Details
Published inEngineering analysis with boundary elements Vol. 150; pp. 120 - 126
Main Authors Henda, Mouna Ben, Alkanhal, Tawfeeq Abdullah, Rebey, Amor, Musmar, Sa'ed A., Tlili, Iskander
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.05.2023
Subjects
Inorganic materials
Perovskite solar cell
Photovoltaics
Sustainable energy
Perovskite solar cell
Sustainable energy
Inorganic materials
MD
Photovoltaics
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Summary:The perovskite solar cell was modeled with the assistance of the molecular dynamics (MD) method to propose a superior configuration for perovskite solar cells and high efficiency for longtime use under severe or unsafe operating conditions. To achieve this aim, several materials and alignments were examined. The whole thickness of this device was kept small enough (≦1 µm). Inorganic materials were used as selective compartments. Perovskite solar cells may have the performance of their photovoltaics improved by optimizing certain parameters. When selecting the materials, several criteria were taken into consideration, including thicknesses, cost, stability, efficiency, and compatibility with wearable Photovoltaic (PV). To model this construction, the electro-physical characteristics of the components were considered, and the findings were compared to those obtained by other studies.
ISSN:0955-7997
1873-197X
DOI:10.1016/j.enganabound.2023.02.004