The performance analysis of the GaAs/c-InN solar photovoltaic cell hetero-structure: temperature dependence

The numerical analysis of the GaAs/c-InN solar photovoltaic cell (SPC) hetero-structure has been investigated by means of an analytical solar cell model in the temperature range 200–400 K to determine and develop solar cell performance. Temperature-band gap dependency for GaAs and InN materials has...

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Bibliographic Details
Published inOptical and quantum electronics Vol. 52; no. 9
Main Author Ataser, Tugce
Format Journal Article
LanguageEnglish
Published New York Springer US 01.09.2020
Springer Nature B.V
Subjects
Characterization and Evaluation of Materials
Circuits
Computer Communication Networks
Efficiency
Electrical Engineering
Energy bands
Energy gap
Indium nitride
Lasers
Mathematical models
Numerical analysis
Open circuit voltage
Optical Devices
Optics
Parameters
Photonics
Photovoltaic cells
Physics
Physics and Astronomy
Room temperature
Short circuit currents
Solar cells
Temperature dependence
Temperature-dependent effect
Electrical parameters
Theoretical calculations
Solar photovoltaic cell
GaAs/c-InN
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Summary:The numerical analysis of the GaAs/c-InN solar photovoltaic cell (SPC) hetero-structure has been investigated by means of an analytical solar cell model in the temperature range 200–400 K to determine and develop solar cell performance. Temperature-band gap dependency for GaAs and InN materials has been determined by Varshni and Pässler models. Then, the performance of the SPC was obtained by basic electrical parameters such as short circuit current density, open circuit voltage and conversion efficiency. For the proposed GaAs/c-InN SPC, theoretical calculations were predicted optimum electrical parameters, J SC , V OC and η were 30.47 mA/cm 2 , 1.60 V and 30.55% at room temperature under AM1.5G spectrum, respectively. Additionally, it was observed that with the increase in the cell temperature, J sc increases slightly due to the energy band gap narrowing whereas V oc decreases, thereby leading to the decrease in the efficiency of SPC. This theoretical study can be helpful in supporting the developed of high efficiency new generation solar cell by studying the role of different hetero-structure materials.
ISSN:0306-8919
1572-817X
DOI:10.1007/s11082-020-02518-y