Electrical and structural properties of p-type nanocrystalline silicon grown by LEPECVD for photovoltaic applications
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p-doped hydrogenated nanocrystalline silicon (p-nc-Si:H) is one of the most critical layers in thin film silicon solar cells. LEPECVD is a new technique for the growth of nc-Si at high growth rate without compromising the layer quality, using a dense but low energy plasma. Thin p-nc-Si:H layers are grown on glass and ZnO:Al coated glass and their structural and electrical properties are investigated as a function of the silane dilution (d) and of the doping ratio (DR). The influence of the substrate on the structural properties is investigated and discussed. The incubation layer is clearly observed on both substrate types and its thickness is estimated. LEPECVD distinguishes itself from other high growth rate methods by a very low impurity distribution coefficient to obtain a comparable conductivity and boron density. The conduction path is shown to be dependent on the density of boron in the layer while a significant decrease of conductivity at high DR is not observed in the studied range.
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MICARD, Gabriel, Giso HAHN, Barbara TERHEIDEN, Daniel CHRASTINA, Giovanni ISELLA, Tamara MOISEEV, Daniela CAVALCOLI, Anna CAVALLINI, Simona BINETTI, Maurizio ACCIARRI, Alessia LE DONNE, Michael TEXIER, Bernard PICHAUD, 2010. Electrical and structural properties of p-type nanocrystalline silicon grown by LEPECVD for photovoltaic applications. In: Physica status solidi / C. 2010, 7(3-4), pp. 712-715. Available under: doi: 10.1002/pssc.200982745BibTex
@article{Micard2010Elect-5203, year={2010}, doi={10.1002/pssc.200982745}, title={Electrical and structural properties of p-type nanocrystalline silicon grown by LEPECVD for photovoltaic applications}, number={3-4}, volume={7}, journal={Physica status solidi / C}, pages={712--715}, author={Micard, Gabriel and Hahn, Giso and Terheiden, Barbara and Chrastina, Daniel and Isella, Giovanni and Moiseev, Tamara and Cavalcoli, Daniela and Cavallini, Anna and Binetti, Simona and Acciarri, Maurizio and Le Donne, Alessia and Texier, Michael and Pichaud, Bernard} }
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