Boosting Photovoltaic Efficiency in Double Quantum Well Intermediate Band-Solar Cells through Impurity Positioning

Angel E. Obispo; Cristofher Zuñiga Vargas; William C. Algoner

doi:10.3390/en16237722

Boosting Photovoltaic Efficiency in Double Quantum Well Intermediate Band-Solar Cells through Impurity Positioning

Angel E. Obispo
, Cristofher Zuñiga Vargas
, William C. Algoner

Producción científica: Artículo Científico › Artículo original › revisión exhaustiva

5 Citas (Scopus)

Resumen

The photovoltaic conversion efficiency of a single-intermediate band solar cell that incorporates a double quantum well structure consisting of GaAs/InAs/GaAs/InAs/GaAs embedded in the intrinsic region of conventional p-i-n structure is analyzed. The width of the intermediate band and the solutions for the two lowest energy states has been determined by solving the two-impurities-related Schrodinger equation based on the Numerov method. The position of these impurities determines three distinct cases: the system in the absence of impurities (Case 1), impurities at the center of GaAs quantum barriers (Case 2), and impurities at the center of InAs quantum wells (Case 3). The photovoltaic conversion efficiency has been calculated as a function of the widths L y H of the quantum well structures. The obtained results indicate an improvement in efficiency under the specific conditions of these parameters.

Idioma original	Inglés estadounidense
-	7722
Publicación	Energies
Volumen	16
N.º	23
DOI	https://doi.org/10.3390/en16237722
Estado	Indizado - dic. 2023
Publicado de forma externa	Sí

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© 2023 by the authors.

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@article{d7bb4f0cbe2a4129bfd42b3e44c4d30f,

title = "Boosting Photovoltaic Efficiency in Double Quantum Well Intermediate Band-Solar Cells through Impurity Positioning",

abstract = "The photovoltaic conversion efficiency of a single-intermediate band solar cell that incorporates a double quantum well structure consisting of GaAs/InAs/GaAs/InAs/GaAs embedded in the intrinsic region of conventional p-i-n structure is analyzed. The width of the intermediate band and the solutions for the two lowest energy states has been determined by solving the two-impurities-related Schrodinger equation based on the Numerov method. The position of these impurities determines three distinct cases: the system in the absence of impurities (Case 1), impurities at the center of GaAs quantum barriers (Case 2), and impurities at the center of InAs quantum wells (Case 3). The photovoltaic conversion efficiency has been calculated as a function of the widths L y H of the quantum well structures. The obtained results indicate an improvement in efficiency under the specific conditions of these parameters.",

keywords = "conversion efficiency, impurities, intermediate band, quantum well, Schr{\"o}dinger equation, solar cell",

author = "Obispo, \{Angel E.\} and \{Zu{\~n}iga Vargas\}, Cristofher and Algoner, \{William C.\}",

note = "Publisher Copyright: {\textcopyright} 2023 by the authors.",

year = "2023",

month = dec,

doi = "10.3390/en16237722",

language = "American English",

volume = "16",

journal = "Energies",

issn = "1996-1073",

publisher = "Multidisciplinary Digital Publishing Institute (MDPI)",

number = "23",

}

TY - JOUR

T1 - Boosting Photovoltaic Efficiency in Double Quantum Well Intermediate Band-Solar Cells through Impurity Positioning

AU - Obispo, Angel E.

AU - Zuñiga Vargas, Cristofher

AU - Algoner, William C.

PY - 2023/12

Y1 - 2023/12

N2 - The photovoltaic conversion efficiency of a single-intermediate band solar cell that incorporates a double quantum well structure consisting of GaAs/InAs/GaAs/InAs/GaAs embedded in the intrinsic region of conventional p-i-n structure is analyzed. The width of the intermediate band and the solutions for the two lowest energy states has been determined by solving the two-impurities-related Schrodinger equation based on the Numerov method. The position of these impurities determines three distinct cases: the system in the absence of impurities (Case 1), impurities at the center of GaAs quantum barriers (Case 2), and impurities at the center of InAs quantum wells (Case 3). The photovoltaic conversion efficiency has been calculated as a function of the widths L y H of the quantum well structures. The obtained results indicate an improvement in efficiency under the specific conditions of these parameters.

AB - The photovoltaic conversion efficiency of a single-intermediate band solar cell that incorporates a double quantum well structure consisting of GaAs/InAs/GaAs/InAs/GaAs embedded in the intrinsic region of conventional p-i-n structure is analyzed. The width of the intermediate band and the solutions for the two lowest energy states has been determined by solving the two-impurities-related Schrodinger equation based on the Numerov method. The position of these impurities determines three distinct cases: the system in the absence of impurities (Case 1), impurities at the center of GaAs quantum barriers (Case 2), and impurities at the center of InAs quantum wells (Case 3). The photovoltaic conversion efficiency has been calculated as a function of the widths L y H of the quantum well structures. The obtained results indicate an improvement in efficiency under the specific conditions of these parameters.

KW - conversion efficiency

KW - impurities

KW - intermediate band

KW - quantum well

KW - Schrödinger equation

KW - solar cell

UR - https://www.scopus.com/pages/publications/85179131844

U2 - 10.3390/en16237722

DO - 10.3390/en16237722

M3 - Original Article

AN - SCOPUS:85179131844

SN - 1996-1073

VL - 16

JO - Energies

JF - Energies

IS - 23

M1 - 7722

ER -

Boosting Photovoltaic Efficiency in Double Quantum Well Intermediate Band-Solar Cells through Impurity Positioning

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