Effect of Li Doping on Cu<sub>2</sub>SnS<sub>3</sub>/n‐Si Heterojunction Solar Cells: Experiments and Simulation

Houimi, Amina; Gezgi̇n, Serap Yi̇ği̇t; Mercimek, Bedrettin; Kılıç, Hamdi Şükür

doi:10.1002/crat.202200138

Cryst. Res. Technol.

2022

DOI: 10.1002/crat.202200138

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Effect of Li Doping on Cu₂SnS₃/n‐Si Heterojunction Solar Cells: Experiments and Simulation

Amina Houimi

Serap Yi̇ği̇t Gezgi̇n

Bedrettin Mercimek

et al.

Abstract: Cu 2 SnS 3 (CTS) semiconductor material owns very interesting absorbing properties that allow it to be effectively utilized in many thin-film-based heterojunction solar cells. In this work, using the ball milling method, a mixture of pure elemental powders is used to synthesize CTS material. Homemade undoped and Li-doped target pellets are used to form CTS-doped and CTS-undoped thin films. The crystallinity investigation of synthesized targets and thin films confirms the formation of CTS tetragonal phase. Comp… Show more

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Efficiency Assessment of GaInp/GaAs Tandem Solar Cells: Analytical Investigation and Numerical Simulation

Makambo,

Imoisili,

Jen

2024

KEM

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This paper presents a numerical simulation of a dual-junction tandem GaInp/GaAs cell made from top GaInp and bottom GaAs cells. For this purpose, we utilized a numerical simulation tool. Two methodologies were proposed, the first method consists of simulating each base layer cell of the top and bottom separately, and the second method simulated both layers in one file, to simulate both in one file. For improved electric characteristics of tandem solar cells, the current-match requirement between the top and bottom cells should be satisfied, necessitating the careful design of parameters. The top base GaInp layer thickness is adjusted to match this requirement. The solar spectrum reaching the lower cell is analytically calculated by subtracting the top cell spectrum from the total spectrum. the optimal value of short current density corresponds with a top cell base thickness of 0.8 µm, this results in an open circuit voltage of 2.45 V, a short circuit current of 15.7 Am/cm2, a fill factor of 91 %, an efficiency of 35 % for the first method and the second method used a script file designed to verify the above results and confirmed the values to be; 2.68 V open circuit voltage, 15.26 Am/cm², a short circuit current, 90 % fill factor, and 36.86 % efficiency under AM 1.5 G solar spectrum.

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Efficiency Assessment of GaInp/GaAs Tandem Solar Cells: Analytical Investigation and Numerical Simulation

Makambo,

Imoisili,

Jen

2024

KEM

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show abstract

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Effect of Li Doping on Cu₂SnS₃/n‐Si Heterojunction Solar Cells: Experiments and Simulation

Cited by 1 publication

References 113 publications

Efficiency Assessment of GaInp/GaAs Tandem Solar Cells: Analytical Investigation and Numerical Simulation

Efficiency Assessment of GaInp/GaAs Tandem Solar Cells: Analytical Investigation and Numerical Simulation

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Effect of Li Doping on Cu2SnS3/n‐Si Heterojunction Solar Cells: Experiments and Simulation

Cited by 1 publication

References 113 publications

Efficiency Assessment of GaInp/GaAs Tandem Solar Cells: Analytical Investigation and Numerical Simulation

Efficiency Assessment of GaInp/GaAs Tandem Solar Cells: Analytical Investigation and Numerical Simulation

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Effect of Li Doping on Cu₂SnS₃/n‐Si Heterojunction Solar Cells: Experiments and Simulation