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    Effect of wet textured glass surface morphology on the haze ratio and aspect ratio for amorphous silicon thin film solar cells

    New search for: Park, Hyeongsik
    New search for: Lee, Youn-Jung
    New search for: Ahn, Shihyun
    New search for: Kim, Sunbo
    New search for: Yi, Junsin

    The impact of controlling the aspect ratio variation on glass substrate for a p-i-n a-Si:H solar cell was investigated and reported. Compared to a flat glass substrate (Corning Eagle XG), we demonstrate an increase of haze ratio from 1% to 79.1%, and an increment in the aspect ratio from 0.1 to 1.16, which is an increase to a high slope angle, using wet chemical etching. Optical transmittance measurements show a major improvement of from 92% to 96% for a wavelength of between 300 and 1100 nm, compared to the reference flat glass. A p-i-n a-Si:H solar cell was simulated using Advanced Semiconductor Analysis simulation based on these haze ratio and aspect ratio results, and yielded an increase in short-circuit current density (Jsc) from 15.38 to 18.74 mA/cm2, as the aspect ratio was increased from 0.1 to 0.84.

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    Effect of wet textured glass surface morphology on the haze ratio and aspect ratio for amorphous silicon thin film solar cells

    New search for: Park, Hyeongsik
    New search for: Lee, Youn-Jung
    New search for: Ahn, Shihyun
    New search for: Kim, Sunbo
    New search for: Yi, Junsin

    The impact of controlling the aspect ratio variation on glass substrate for a p-i-n a-Si:H solar cell was investigated and reported. Compared to a flat glass substrate (Corning Eagle XG), we demonstrate an increase of haze ratio from 1% to 79.1%, and an increment in the aspect ratio from 0.1 to 1.16, which is an increase to a high slope angle, using wet chemical etching. Optical transmittance measurements show a major improvement of from 92% to 96% for a wavelength of between 300 and 1100 nm, compared to the reference flat glass. A p-i-n a-Si:H solar cell was simulated using Advanced Semiconductor Analysis simulation based on these haze ratio and aspect ratio results, and yielded an increase in short-circuit current density (Jsc) from 15.38 to 18.74 mA/cm2, as the aspect ratio was increased from 0.1 to 0.84.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Effect of wet textured glass surface morphology on the haze ratio and aspect ratio for amorphous silicon thin film solar cells

    New search for: Park, Hyeongsik
    New search for: Lee, Youn-Jung
    New search for: Ahn, Shihyun
    New search for: Kim, Sunbo
    New search for: Yi, Junsin

    The impact of controlling the aspect ratio variation on glass substrate for a p-i-n a-Si:H solar cell was investigated and reported. Compared to a flat glass substrate (Corning Eagle XG), we demonstrate an increase of haze ratio from 1% to 79.1%, and an increment in the aspect ratio from 0.1 to 1.16, which is an increase to a high slope angle, using wet chemical etching. Optical transmittance measurements show a major improvement of from 92% to 96% for a wavelength of between 300 and 1100 nm, compared to the reference flat glass. A p-i-n a-Si:H solar cell was simulated using Advanced Semiconductor Analysis simulation based on these haze ratio and aspect ratio results, and yielded an increase in short-circuit current density (Jsc) from 15.38 to 18.74 mA/cm2, as the aspect ratio was increased from 0.1 to 0.84.

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    Title:

    Effect of wet textured glass surface morphology on the haze ratio and aspect ratio for amorphous silicon thin film solar cells

    Contributors:

    Park, Hyeongsik (author) / Lee, Youn-Jung (author) / Ahn, Shihyun (author) / Kim, Sunbo (author) / Yi, Junsin (author)

    Published in:

    Journal of Renewable and Sustainable Energy ; 6 ; 5

    Publication date:

    2014-09-01

    Size:

    5 pages

    ISSN:

    1941-7012

    DOI:

    https://doi.org/10.1063/1.4899198

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    REGULAR ARTICLES

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