Elucidating the role of interfacial MoS2 layer in Cu2ZnSnS4 thin film solar cells by numerical analysis

Alignment; Charge carriers; Computer software; Copper compounds; Efficiency; Electron affinity; Energy gap; Heterojunctions; Layered semiconductors; Molybdenum compounds; Numerical analysis; Semiconductor doping; Solar cells; Thin film solar cells; Thin films; Tin compounds; Transition metals; Cell...

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Bibliographic Details
Main Authors: Ferdaous M.T., Shahahmadi S.A., Chelvanathan P., Akhtaruzzaman M., Alharbi F.H., Sopian K., Tiong S.K., Amin N.
Other Authors: 55567613100
Format: Article
Published: Elsevier Ltd 2023
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Summary:Alignment; Charge carriers; Computer software; Copper compounds; Efficiency; Electron affinity; Energy gap; Heterojunctions; Layered semiconductors; Molybdenum compounds; Numerical analysis; Semiconductor doping; Solar cells; Thin film solar cells; Thin films; Tin compounds; Transition metals; Cell performance; Cu2ZnSnS4; Czts solar cells; Higher efficiency; Interfacial layer; Layer thickness; Metal-semiconductor junctions; Transition metal dichalcogenides; Zinc compounds; electron; energy efficiency; film; numerical method; simulation; software; solar power; transition element