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Main Authors: Roy, Etee Kawna, Powell, Kaden, Lee, Chungho, Xiong, Gang, Yoon, Heayoung
Format: Preprint
Published: 2023
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Online Access:https://arxiv.org/abs/2301.09787
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author Roy, Etee Kawna
Powell, Kaden
Lee, Chungho
Xiong, Gang
Yoon, Heayoung
author_facet Roy, Etee Kawna
Powell, Kaden
Lee, Chungho
Xiong, Gang
Yoon, Heayoung
contents Recent studies have investigated novel strategies to further improve the limited Voc of CdTe solar cells via increased carrier lifetime and doping density of CdTe thin films. Among various metal oxides, aluminum oxide (Al2O3) is a promising passivation candidate, where the negatively charged Al2O3 layer repels the minority carrier in CdTe and Al2O3 provides a chemically passivating interface, increasing the carrier lifetime. Despite the continuing efforts, an optimized back-contact architecture to improve the Voc while maintaining high Jsc and FF is still under development. In this work, we report the design, fabrication, and characterization of PERC-like CdTe solar cells, where an Al2O3 passivation layer is patterned using laser-beam lithography. Our process enables reproducible patterning on a rough surface CdTe while maintaining the size of the array in the design. Analysis of CdTe PERC devices (As-doped) shows a notably different Voc trend compared to FF and Jsc, independent of the patterned array structures used in this study. The subsurface electronic structure of CdTe and the interplay between carrier selectivity and collection of the patterned Al2O3 could be responsible for the observed PV characteristics.
format Preprint
id arxiv_https___arxiv_org_abs_2301_09787
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Design and Fabrication of PERC-Like CdTe Solar Cells Using Micropatterned Al2O3 Layer
Roy, Etee Kawna
Powell, Kaden
Lee, Chungho
Xiong, Gang
Yoon, Heayoung
Materials Science
Applied Physics
Recent studies have investigated novel strategies to further improve the limited Voc of CdTe solar cells via increased carrier lifetime and doping density of CdTe thin films. Among various metal oxides, aluminum oxide (Al2O3) is a promising passivation candidate, where the negatively charged Al2O3 layer repels the minority carrier in CdTe and Al2O3 provides a chemically passivating interface, increasing the carrier lifetime. Despite the continuing efforts, an optimized back-contact architecture to improve the Voc while maintaining high Jsc and FF is still under development. In this work, we report the design, fabrication, and characterization of PERC-like CdTe solar cells, where an Al2O3 passivation layer is patterned using laser-beam lithography. Our process enables reproducible patterning on a rough surface CdTe while maintaining the size of the array in the design. Analysis of CdTe PERC devices (As-doped) shows a notably different Voc trend compared to FF and Jsc, independent of the patterned array structures used in this study. The subsurface electronic structure of CdTe and the interplay between carrier selectivity and collection of the patterned Al2O3 could be responsible for the observed PV characteristics.
title Design and Fabrication of PERC-Like CdTe Solar Cells Using Micropatterned Al2O3 Layer
topic Materials Science
Applied Physics
url https://arxiv.org/abs/2301.09787