Please use this identifier to cite or link to this item:
http://hdl.handle.net/20.500.12358/26393
Title | Anti-reflection Coating Solar Cell Structure Based on Conductive Nanoparticles |
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Untitled | |
Abstract |
In this paper, we investigate for the first time antireflection coating structure for silicon solar cell where CNPs (conductive nanoparticles) film layer is sandwiched between a semi-infinite glass cover layer and a semi-infinite silicon substrate. The transmission and reflection coefficients are derived by the transfer matrix method and simulated for values of unit cell sizes, gab widths in visible and near-infrared radiation. In addition, the absorption, reflection coefficients are examined for several angles of incidence of the TE (transverse electric) polarized guided waves. Numerical results provide an extremely high absorption, if nanoparticles are suitably located and sized. The absorptivity of the structure achieves 100% at gab width of 3.5 nm and CNP layer thickness of 150 nm. |
Type | Journal Article |
Date | 2017 |
Published in | Journal of Materials Science and Engineering |
Citation | |
Item link | Item Link |
License | ![]() |
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Files in this item | ||
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Shabat, Mohammed M._236.pdf | 710.2Kb |