Anti-reflection Coating Solar Cell Structure Based on Conductive Nanoparticles

Journal of materials science & engineering Pub Date : 2017-10-28 DOI:10.17265/2161-6221/2017.9-10.004
H. M. Mousa, M. Shabat, A. Ouda
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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.
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基于导电纳米颗粒的抗反射涂层太阳能电池结构
在本文中,我们首次研究了在半无限玻璃覆盖层和半无限硅衬底之间夹有CNPs(导电纳米粒子)薄膜层的硅太阳能电池增透涂层结构。利用传递矩阵法推导了透射系数和反射系数,并模拟了在可见光和近红外辐射下的单元胞尺寸、腔隙宽度值。此外,还研究了横向极化导波在不同入射角下的吸收、反射系数。数值结果表明,如果纳米颗粒的位置和尺寸合适,吸收率极高。在吸光口宽度为3.5 nm、CNP层厚度为150 nm时,该结构的吸光率达到100%。
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Journal of materials science & engineering
Journal of materials science & engineering
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