Triple junction solar cell with Cu In1-x Gex Se as absorbents layers

Amina Maria  Laoufi; Latifa  Mousli; Benmoussa  Dennai

doi:10.54966/jreen.v1i1.1102

Revue des Énergies Renouvelables (Apr 2023)

Triple junction solar cell with Cu In1-x Gex Se as absorbents layers

Amina Maria Laoufi,
Latifa Mousli,
Benmoussa Dennai

Affiliations

Amina Maria Laoufi: Tahri Mohamed University, Smart Grid & Renewable Energy (SGRE LAB) Bechar, Algeria
Latifa Mousli: Tahri Mohamed University, Laboratory for the Development of Renewable Energies and their Applications in Saharan areas (LDERAS).Bechar, Algeria
Benmoussa Dennai: Tahri Mohamed University, Laboratory for the Development of Renewable Energies and their Applications in Saharan areas (LDERAS).Bechar, Algeria

DOI: https://doi.org/10.54966/jreen.v1i1.1102

Abstract

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The design of multi-junction solar cells is guided by both the theoretical optimum bandgap combinations as well as the realistic limitations to materials with these bandgaps. Nowadays, triple-junction III-V multi-junction solar cells are commonly used as GaAs, InGaAs; InGaP ... In this work, we are interested in studying triple junctions based on thin-film solar cells Cu(In1-xGax) Se2, CuInSe2, and CuGaSe2 quaternaries using Silvaco ATLAS software. Incorporating Cu(In0.34Ga0.66) Se2 as an absorber in the middle sub-cell increased the open-circuit voltage by 0.72 V. The highest cell efficiency is 20.89 % (Voc = 2.33 V, Jsc = 9.97 mA/cm2, FF = 89.62%). This triple-junction solar cell demonstrates the potential and limitations of future improvements when voltage and current are considered.

Published in Revue des Énergies Renouvelables

ISSN: 1112-2242 (Print); 2716-8247 (Online)
Publisher: Renewable Energy Development Center (CDER)
Country of publisher: Algeria
LCC subjects: Technology: Mechanical engineering and machinery: Renewable energy sources
Website: https://revue.cder.dz/index.php/rer

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