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    A new modeling approach for graphene based silicon nanowire Schottky junction solar cells

    New search for: Arefinia, Zahra
    New search for: Asgari, Asghar

    In this paper, a new approach to model the graphene-based silicon nanowires Schottky junction (SiNWs/G) solar cells taking into account Shockley-Read-Hall, Auger, radiative and surface recombinations is presented. The model results show that the performance of the SiNWs/G solar cells is much better than those of bulk Si/G counterpart solar cells. Then, a particular attention is paid to the effects of the number of graphene layers on the performance of the n- and p-type SiNWs/G solar cells. It is found that the performance of p-type SiNWs/G is more efficient than n-type SiNWs/G solar cell for the monolayer and bilayer graphene. Furthermore, the p-SiNWs/G solar cell parameters as functions of the temperature, doping concentration, and the SiNWs density and filling ratio are investigated. A comparison of our calculated results with published experimental data is shown to be in good agreement.

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    A new modeling approach for graphene based silicon nanowire Schottky junction solar cells

    New search for: Arefinia, Zahra
    New search for: Asgari, Asghar

    In this paper, a new approach to model the graphene-based silicon nanowires Schottky junction (SiNWs/G) solar cells taking into account Shockley-Read-Hall, Auger, radiative and surface recombinations is presented. The model results show that the performance of the SiNWs/G solar cells is much better than those of bulk Si/G counterpart solar cells. Then, a particular attention is paid to the effects of the number of graphene layers on the performance of the n- and p-type SiNWs/G solar cells. It is found that the performance of p-type SiNWs/G is more efficient than n-type SiNWs/G solar cell for the monolayer and bilayer graphene. Furthermore, the p-SiNWs/G solar cell parameters as functions of the temperature, doping concentration, and the SiNWs density and filling ratio are investigated. A comparison of our calculated results with published experimental data is shown to be in good agreement.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    A new modeling approach for graphene based silicon nanowire Schottky junction solar cells

    New search for: Arefinia, Zahra
    New search for: Asgari, Asghar

    In this paper, a new approach to model the graphene-based silicon nanowires Schottky junction (SiNWs/G) solar cells taking into account Shockley-Read-Hall, Auger, radiative and surface recombinations is presented. The model results show that the performance of the SiNWs/G solar cells is much better than those of bulk Si/G counterpart solar cells. Then, a particular attention is paid to the effects of the number of graphene layers on the performance of the n- and p-type SiNWs/G solar cells. It is found that the performance of p-type SiNWs/G is more efficient than n-type SiNWs/G solar cell for the monolayer and bilayer graphene. Furthermore, the p-SiNWs/G solar cell parameters as functions of the temperature, doping concentration, and the SiNWs density and filling ratio are investigated. A comparison of our calculated results with published experimental data is shown to be in good agreement.

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    Title:

    A new modeling approach for graphene based silicon nanowire Schottky junction solar cells

    Contributors:

    Arefinia, Zahra (author) / Asgari, Asghar (author)

    Published in:

    Journal of Renewable and Sustainable Energy ; 6 ; 15

    Publication date:

    2014-07-01

    Size:

    15 pages

    ISSN:

    1941-7012

    DOI:

    https://doi.org/10.1063/1.4893433

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    REGULAR ARTICLES

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