Litcius/Paper detail

Design and simulation of double-heterojunction solar cells based on Si and GaAs wafers

Jaker Hossain

2021Journal of Physics Communications50 citationsDOIOpen Access PDF

Abstract

Abstract This article demonstrates the novel designs of Si and GaAs wafer-based double-heterojunction (DH) solar cells using SCAPS-1D simulator. Simple five-layer solar cells are proposed here: cells comprised of a cathode metal layer, three layers of semiconductor materials in the III–V, II–VI and group IV families--and a layer of anode metal. The device structures have been optimized for the analysis of the power-conversion efficiency (PCE) of the Si and GaAs solar cells considering high defect densities at and near each heterojunction. The PCEs predicted are 38% and 38.9% for n -ZnSe/ p -Si/ p + -Al 0.8 Ga 0.2 Sb and n -ZnSe/ p -GaAs/ p + -AlAs 0.9 Sb 0.1 cells, respectively which stay entirely within the PCE limits set by the Shockley–Queisser theory of multi-junction cell. These results reveal that high efficiency and hence cost-effective Si and GaAs wafer-based DH solar cells can be fabricated in the near future.

Topics & Concepts

HeterojunctionWaferOptoelectronicsMaterials scienceSolar cellSemiconductorEnergy conversion efficiencyLayer (electronics)Polymer solar cellNanotechnologySemiconductor materials and interfacessolar cell performance optimizationSilicon and Solar Cell Technologies