Simulating a solar cell with a regular surface texture using technology level CAD

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Resumo

One of the promising methods for increasing the output characteristics of solar cells (SC) is surface texturing. The article compares solar cells with different surface geometries; using TCAD technological-level CAD the current-voltage characteristics are simulated and the maximum power of the structures under study is calculated.

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Sobre autores

E. Plotnikova

Воронежский государственный технический университет

Autor responsável pela correspondência
Email: katy-tokra@yandex.ru

к.т.н., доцент

Rússia

A. Arsentiev

Воронежский государственный технический университет

Email: aleksej.box@gmail.com

к.т.н., доцент 

Rússia

A. Vinokurov

Воронежский государственный технический университет

Email: sasha.vinokurov@mail.ru

к.т.н., доцент

Rússia

Bibliografia

  1. Симашкевич А.В., Шербан Д.А., Брук Л.И., Харя Е.Е., Усатый Ю.В. Эффективные солнечные элементы ITO-nSi с текстурированной поверхностью кремния // Электронная обработка материалов. 2011. Т. 47. № 3. С. 79–84.
  2. Heng J.B., Fu J., Kong B., Chae Y., Weng W., Xie Z., Reddy A., Lam K. et al. High-Efficiency Tunnel Oxide Junction Bifacial Solar Cell With Electroplated Cu Gridlines // IEEE Journal of Photovoltaics, 2015. Vol. 5. No. 1. PP. 82–86.
  3. Hovel H.J., Willardson R.K., Beer A.C. Semiconductors and Semimetals. Solar cells //Academic Press. New York, 1975. 254 p.
  4. Green M.A. Thin-film solar cells: review of materials, technologies and commercial status // Journal of Materials Science: Materials in Electronics, 2007. Vol. 18. No. 1. PP. 15–19.
  5. Chopra K.L., Paulson P.D., Dutta V. Thin-film solar cells: an overview // Progress in Photovoltaics: Research and Applications, 2004. Vol. 12. No. 23. PP. 69–92.
  6. Haase C., Stiebig H. Thin-film Silicon Solar Cells with Efficient Periodic Light Trapping Texture // Applied Physics Letters, 2007. Vol. 91. No. 6. 061116.
  7. Shota H., Takashi M., Hideyuki T., Yoshihiro H. Influence of Texture Feature Size on Spherical Silicon Solar Cells // Rare Metals, 2006. Vol. 25. No. 6. PP. 115–120.

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2. Fig. 1. Structure of a classical SE: a - materials used; b - distribution of charge carriers

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3. Table 1_1

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4. Fig. 2. SE with relief in the form of small peaks: a - materials used; b - distribution of charge carriers

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5. Fig. 3. Comparison of VAC of flat SE and SE with small peaks

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6. Fig. 4. Intensity of radiation passing through the SE structure: a - distribution of optical intensity over the volume of the SE crystal; b - paths of optical rays after refraction on the SE surface

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7. Fig. 5. Comparison of the power of flat SE and SE with small peaks

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Declaração de direitos autorais © Plotnikova E., Arsentiev A., Vinokurov A., 2024