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Influence of the AlN interlayer thickness on the photovoltaic properties of In-rich AlInN on Si heterojunctions deposited by RF sputtering

Authors :
Valdueza-Felip, S.
Núñez-Cascajero, A.
Blasco, R.
Montero, D.
Grenet, L.
de la Mata, M.
Fernández, S.
Marcos, L. Rodríguez-De
Molina, S. I.
Olea, J.
Naranjo, F. B.
Publication Year :
2018

Abstract

We report the influence of the AlN interlayer thickness (0-15 nm) on the photovoltaic properties of Al0.37In0.63N on Si heterojunction solar cells deposited by radio frequency sputtering. The poor junction band alignment and the presence of a 2-3 nm thick amorphous layer at the interface mitigates the response in devices fabricated by direct deposition of n-AlInN on p-Si(111). Adding a 4-nm-thick AlN buffer layer improves the AlInN crystalline quality and the interface alignment leading to devices with a conversion efficiency of 1.5% under 1-sun AM1.5G illumination. For thicker buffers the performance lessens due to inefficient tunnel transport through the AlN. These results demonstrate the feasibility of using In-rich AlInN alloys deposited by radio frequency sputtering as novel electron-selective contacts to Si-heterojunction solar cells.

Details

Database :
arXiv
Publication Type :
Report
Accession number :
edsarx.1808.01117
Document Type :
Working Paper