M. Zazoui scite author profile

Although the defects introduced by irradiation in Si and GaAs have been extensively studied, the centres giving rise to non-radiative recombination have been neither characterized nor identified. We propose here a method allowing one to fully characterize recombination centres, i.e. to obtain their electron and hole capture cross sections as well as their concentration. It is based on a correlation between data extracted from the current-voltage characteristics of a junction in dark, deep level transient spectroscopy and the variations of the short-circuit current and open voltage of solar cells versus the logarithm of the irradiation fluence. The method is applied to characterize and tentatively identify the recombination centres introduced by electron irradiation in Si, GaAs and InGaP.

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Self-assembled antireflection coatings for light trapping based on SiGe random metasurfaces

Bouabdellaoui

Checcucci

Wood

et al. 2018

Phys. Rev. Materials

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We demonstrate a simple self-assembly method based on solid state dewetting of ultra-thin silicon films and germanium deposition for the fabrication of efficient anti reflection coatings on silicon for light trapping. Via solid state dewetting of ultra-thin silicon on insulator and epitaxial deposition of Ge we fabricate SiGe islands with a high surface density, randomly positioned and broadly varied in size. This allows to reduce the reflectance to low values in a broad spectral range (from 500 nm to 2500 nm) and a broad angle (up to 55 degrees) and to trap within the wafer a large portion of the impinging light (∼40%) also below the band-gap, where the Si substrate is non-absorbing. Theoretical simulations agree with the experimental results showing that the efficient light coupling into the substrate mediated by Mie resonances formed within the SiGe islands. This lithography-free method can be implemented on arbitrarily thick or thin SiO2 layers and its duration only depends on the sample thickness and on the annealing temperature.

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Space degradation of multijunction solar cells: An electroluminescence study

Zazoui

Bourgoin

2002

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Effects of Temperature and Concentration Mono and Polycrystalline Silicon Solar Cells: Extraction Parameters

Khalis

Masrour

Khrypunov

et al. 2016

J. Phys.: Conf. Ser.

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M. Zazoui

Irradiation-induced degradation in solar cell: characterization of recombination centres

Self-assembled antireflection coatings for light trapping based on SiGe random metasurfaces

Space degradation of multijunction solar cells: An electroluminescence study

Effects of Temperature and Concentration Mono and Polycrystalline Silicon Solar Cells: Extraction Parameters

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