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Controlled nucleation of thin microcrystalline layers for the recombination junction in a-Si stacked cells
Auteur(s)
Pellaton Vaucher, N.
Rech, B.
Fischer, D.
Dubail, S.
Goetz, M.
Keppner, Herbert
Wyrsch, Nicolas
Beneking, C.
Hadjadj, O.
Shklover, V.
Shah, Arvind
Date de parution
1997
In
Solar Energy Materials and Solar Cells, Elsevier, 1997/49/1-4/27-33
Résumé
In high-efficiency a-Si : H based stacked cells, at least one of the two layers that form the internal n/p junction has preferentially to be microcrystalline so as to obtain sufficient recombination at the junction [1–6]. The crucial point is the nucleation of a very thin μc-Si : H layer on an amorphous (i-layer) substrate [2, 4]. In this study, fast nucleation is induced through the treatment of the amorphous substrate by a CO<sub>2</sub> plasma. The resulting n-layers with a high crystalline fraction were, however, found to reduce the <i>V</i><sub>oc</sub> when incorporated in tandem cells. The reduction of the <i>V</i><sub>oc</sub> could be restored only by a precise control of the crystalline fraction of the n-layer. As a technologically more feasible alternative, we propose a new, combined n-layer, consisting of a first amorphous layer for a high <i>V</i><sub>oc</sub>, and a second microcrystalline layer, induced by CO<sub>2</sub> treatment, for a sufficient recombination at the n/p junction. Resulting tandem cells show no <i>V</i><sub>oc</sub> losses compared to two standard single cells, and an efficient recombination of the carriers at the internal junction as proved by the low series resistance (15 Ωcm2) and the high FF ( 75%) of the stacked cells.
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Type de publication
journal article
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