Surface Modification and Theoretical Investigation by Simulation for Light Trapping in Silicon Heterojunction Solar Cells

The 25% conversion efficiency of silicon solar cells is attributed to monocrystalline silicon wafers. These wafers have been utilized in the development of heterojunction with intrinsic thin-layer solar cells. To harness electrical power efficiently from a solar cell, it is essential not only to enh...

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Bibliographic Details
Published in:Transactions on electrical and electronic materials 2023, 24(6), , pp.579-588
Main Authors: Park, Hyeong Gi, Shin, Myunghun, Kim, Yong-Ki, Lee, Jae-Hyun, Ju, Minkyu, Yi, Junsin
Format: Article
Language:English
Subjects:
Chemistry and Materials Science
Electronics and Microelectronics
Instrumentation
Materials Science
Optical and Electronic Materials
Regular Paper
전기공학
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Summary:The 25% conversion efficiency of silicon solar cells is attributed to monocrystalline silicon wafers. These wafers have been utilized in the development of heterojunction with intrinsic thin-layer solar cells. To harness electrical power efficiently from a solar cell, it is essential not only to enhance its performance but also to significantly reduce its production costs. It is projected that the thickness of the Si wafer will gradually approach a minimum value of approximately 100 μm in the future. As a result, reducing the as-cut wafer thickness can lead to a more efficient utilization of silicon. In this paper, we present an approach for surface modification using a thin wafer, specifically for the application of rear-emitter silicon heterojunction (RE-SHJ) solar cells. RE-SHJ solar cells often experience a reduction in current density due to optical losses, such as the absorption in each layer and reflections on both the front and rear sides. For the application of RE-SHJ solar cells, we fabricated different pyramid sizes using a texturing solution after polishing the rear surface. The surface modifications in this study incorporated both front-side texturing and rear-side polishing. These modifications can contribute to enhanced efficiency, even with a thin wafer.
ISSN:1229-7607
2092-7592
DOI:10.1007/s42341-023-00479-z