Investigation of hydrogen effect on phosphorus-doped polysilicon thin films

Polycrystalline silicon is widely used in microelectronic and photovoltaic applications. The main problem of this material is the recombination of charge carriers at the grain boundaries which affects the efficiency of the polycrystalline silicon solar cells. In order to improve the crystalline qual...

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Bibliographic Details
Published in:Surface engineering 2020-01, Vol.36 (1), p.29-32
Main Authors: Mekhalfa, Meryem, Zaidi, Beddiaf, Hadjoudja, Bouzid, Chouial, Baghdadi, Chibani, Allaoua
Format: Article
Language:English
Subjects:
grain boundaries
hydrogen
passivation
Polycrystalline silicon
solar cells
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Summary:Polycrystalline silicon is widely used in microelectronic and photovoltaic applications. The main problem of this material is the recombination of charge carriers at the grain boundaries which affects the efficiency of the polycrystalline silicon solar cells. In order to improve the crystalline quality and the electrical properties of phosphorus-doped poly-silicon thin films, heat treatments under hydrogen were carried out. This allowed the occupation of the dangling bonds at the grain boundaries and made them inactive, which resulted in improved optoelectronic properties of the treated samples. It has been shown that the effect of hydrogen on the electrical characteristics is more pronounced for low doping concentrations where a 20% improvement of the free carrier concentration was obtained. In addition, the results have shown that the introduction of hydrogen in poly-silicon thin films reduces the density of trap states at the grain boundaries.
ISSN:0267-0844
1743-2944
DOI:10.1080/02670844.2018.1536377