ZnO thin film and porous silicon co-gettering of impurities in multicrystalline silicon through a VTP process

In this study, a novel zinc oxide and porous silicon co-gettering experiment has been applied as a beneficial approach to improve the electrical properties of low quality multicrystalline silicon substrates (mc-Si). We investigated the combined effect of ZnO and porous silicon (ZnO/PS) to enhance th...

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Bibliographic Details
Published in:Journal of materials science. Materials in electronics 2018-05, Vol.29 (10), p.8216-8223
Main Authors: Ouadhour, M., Derbali, L., Zargouni, S., Hajji, M., Ezzaouia, H.
Format: Article
Language:English
Subjects:
Annealing
Carrier lifetime
Characterization and Evaluation of Materials
Chemistry and Materials Science
Electrical properties
Electron mobility
Field emission microscopy
Gettering
Grain boundaries
Hall effect
Materials Science
Minority carriers
Optical and Electronic Materials
Porous silicon
Quantum efficiency
Scanning electron microscopy
Silicon
Silicon substrates
Thin films
Zinc oxide
Zinc oxides
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Summary:In this study, a novel zinc oxide and porous silicon co-gettering experiment has been applied as a beneficial approach to improve the electrical properties of low quality multicrystalline silicon substrates (mc-Si). We investigated the combined effect of ZnO and porous silicon (ZnO/PS) to enhance the gettering process efficiency. A systematic comparison has been carried out between two different routes of annealing after coating the front surface with zinc oxide thin film. The first one consists of a one step annealing (classic annealing) and the second consists in subjecting the samples to a variable annealing temperature process (VTP) using two steps, starting by the precipitate temperature at Tp = 1000 °C followed consecutively by a gettering temperature at Tg = 850 °C for different durations. Obtained results show that the Zn-gettering processes via the classic annealing process allow a significant improvement of the substrate quality. Nonetheless, highest values of the effective minority carrier lifetime exceeding 508 µs were obtained after using VTP annealing. Zn-gettering was investigated and found to have a crucial effect on the recombination activities mainly into the grain boundaries. Obtained results showed a significant enhancement of the gettered multicrystalline silicon electrical properties, resulting after the high increase of the effective minority carrier lifetime from 5 to 508 µs and the increase of the Hall mobility from 72 to 193 cm 2  V − 1  s − 1 . These enhancements have been further confirmed with the internal quantum efficiency (IQE) measurements. Thus, it is inferred that the applied co-gettering experiment has a synergetic effect to improve the electrical properties of the mc-Si substrates. The morphological structure of silicon was signed out by the Field emission scanning electron microscopy (FESEM).
ISSN:0957-4522
1573-482X
DOI:10.1007/s10854-018-8828-3