DIFFERENT LAYERS ANALYSIS ON THE PERFORMANCE OF PM6:Y6 BASED ORGANIC SOLAR CELLS

Septian, M.Rivaldi Ali and Rodiah, Yuli and Ika, Novia Anggraini (2022) DIFFERENT LAYERS ANALYSIS ON THE PERFORMANCE OF PM6:Y6 BASED ORGANIC SOLAR CELLS. Undergraduated thesis, Universitas Bengkulu.

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Abstract

ABSTRACT Organic solar cells are now experiencing rapid development after the discovery of non-fullerene acceptors (NFA) as material recipients. This makes NFA a material that is often used for the manufacture of organic solar cells because it is proven to increase PCE (Power Conversion Efficiency). In this study, an organic solar cell model was designed with an active bulk-heterojunction layer consisting of a mixture of electron donor (PM6) and electron acceptor (Y6) materials which are NFA (Non-Fullerene Acceptor) materials, the anode transparent electrode in the form of ITO (indium tin oxide), the electron transport layer at ZnO and MoO3 as Hole transport layer as well as Ag as an cathode electrode. Simulations were carried out to observe the output parameters in the form of JV Curve Characterization by varying the thickness of the active layer, electron transport layer, and different hole transport layers using GPVDM (General-Purpose Photovoltaic Device Model) software. After the optimization process was carried out, the PCE value was quite good, which was reach 9.288% with the thickness of each layer, including ITO 150 nm, , ZnO 20 nm, PM6: Y6 130 nm, MoO3 7 nm, and Ag 110 nm. Keywords: Organic Solar Cell, NFA, PCE, PM6:Y6, Thickness

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