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Optical Modeling of Capped Multi-Layer Porous Silicon as a Back Reflector in Thin-Film Solar Cells

机译：薄膜太阳能电池中带盖的多层多孔硅作为背反射镜的光学建模

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A model for the optical properties of closed-porosity silicon is developed as a tool for design and optimization of porous silicon stacks made of layers of alternate (high/low) porosity which are possible candidates for use as back reflectors in thin-film silicon solar cells on cheap substrates. The model takes into account the change in pore morphology during the epitaxial growth process of the silicon film on the stack, with the pores taking the form of relatively large closed cavities where retardation and interference effects play an important role. The calculated front-surface reflectance of structures consisting of a silicon epitaxial layer with a plasma-textured front surface grown over a reflecting porous silicon stack are compared with the corresponding experimental measurements, showing a good agreement between theory and experiment

机译：开发了用于闭孔硅的光学特性的模型，作为设计和优化由交替（高/低）孔隙率层构成的多孔硅叠层的工具，可以将其用作薄膜硅太阳能电池的背反射器廉价基板上的电池。该模型考虑了在叠层上硅膜的外延生长过程中孔形态的变化，这些孔采用相对较大的封闭型腔形式，其中延迟和干涉效应起着重要作用。将计算出的由硅外延层构成的结构的正面反射率与反射多孔硅叠层上生长的等离子纹理化前表面进行了比较，并与相应的实验测量结果进行了比较，表明理论与实验之间具有良好的一致性

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《》|2006年|1362-1364|共3页
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Ghannam; M.; Abouelsaood; A.; Kuzma; I.; Duerinckx; F.; Poortmans; J.;
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elemental semiconductors; epitaxial growth; light reflection; multilayers; porous semiconductors; semiconductor device models; semiconductor epitaxial layers; silicon; solar cells; thin film devices; Si; back reflector; epitaxial growth; front-surface reflectance; inte;

机译：元素半导体;外延生长;光反射;多层;多孔半导体;半导体器件模型;半导体外延层;硅;太阳能电池;薄膜器件; Si;后反射器;外延生长;前表面反射率;界面;

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专利

1. Analysis of thin-film silicon solar cells with plasma textured front surface and multi-layer porous silicon back reflector [J] . Ghannam MY, Abouelsaood AA, Alomar AS, Solar Energy Materials and Solar Cells: An International Journal Devoted to Photovoltaic, Photothermal, and Photochemical Solar Energy Conversion . 2010,第5期

机译：具有等离子纹理前表面和多层多孔硅背反射器的薄膜硅太阳能电池的分析
2. >16% thin-film epitaxial silicon solar cells on 70-cm~2 area with 30-μm active layer, porous silicon back reflector, and Cu-based top-contact metallization [J] . Izabela Kuzma-Filipek, Frederic Dross, Kris Baert Progress in photovoltaics . 2012,第3期

机译：薄膜外延硅太阳能电池面积超过70％〜2时具有16％的薄膜外延硅太阳能电池，具有30μm的有源层，多孔硅背反射器和基于铜的顶部接触金属化层
3. Short-Circuit Current Densities Exceeding 30 $ hbox{mA/cm}^{2}$ by Use of Chirped Porous-Silicon Reflectors and Shallow Emitters in Thin-Film (20- $muhbox{m}$) Epitaxial Silicon Solar Cells [J] . Kuzma-Filipek I., Van Nieuwenhuysen K., Van Hoeymissen J., Electron Device Letters, IEEE . 2009,第5期

机译：薄膜中的of多孔硅反射器和浅发射极的短路电流密度超过30 $ hbox {mA / cm} ^ {2} $（20- muhbox {m} $）外延硅太阳能电池
4. Optical Modeling of Capped Multi-Layer Porous Silicon as a Back Reflector in Thin-Film Solar Cells [C] . Ghannam M., Abouelsaood A., Kuzma I., World Conference on Photovoltaic Energy Conversion . 2006

机译：薄膜太阳能电池中盖多层多孔硅的光学建模
5. Modeling, design and fabrication of thin-film microcrystalline silicon solar cells. [D] . Chen, Wei. 2000

机译：薄膜微晶硅太阳能电池的建模，设计和制造。
6. Optical Study and Experimental Realization of Nanostructured Back Reflectors with Reduced Parasitic Losses for Silicon Thin Film Solar Cells [O] . Zeyu Li, Rusli E, Chenjin Lu, 2018

机译：硅薄膜太阳能电池具有降低的寄生损耗的纳米结构背反射镜的光学研究和实验实现
7. Structural and Optical Properties of Annealed Porous Silicon Bragg Reflector for Thin-Film Crystalline Silicon Solar Cells [O] . Grau Maïlys, Nguyen Nhat-Tai, Straboni Alain, 2011

机译：薄膜硅晶体太阳能电池退火多孔硅布拉格反射器的结构和光学性质

Optical Modeling of Capped Multi-Layer Porous Silicon as a Back Reflector in Thin-Film Solar Cells

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