Investigation of the Impact of the Wafer Resistivities on Double-Side Passivated Contact Silicon Solar Cells
2025
Pradeep Padhamnath | Gabby De Luna | Ruohan Zhong | John Derek Arcebal | Ajeet Rohatgi | Armin G. Aberle
In this work, we investigate the impact of substrate resistivities on the performance of poly-Si based double-side passivated contact solar cells, featuring high-temperature fire-through contacts to both n-type and p-type poly-Si, where the contacts are co-fired at the same firing temperatures. Large-area double-side passivated contact solar cells are fabricated on n-type wafers and thoroughly characterized to understand the impact of the change in Si wafer resistivity on the performance of the solar cells. The solar cells are fabricated on n-type substrates, with p+ poly-Si deposited on the planar rear side and n+ poly-Si on the textured front. The n+ poly-Si on the front side is selectively patterned to constrain it to the regions below the metal contacts. The fabricated solar cells achieve ≈ 22% efficiency on large area using high-temperature fire-through metallization. With the help of detailed characterization, we identify the losses that limit the device efficiency.
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