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Properties of interfaces in amorphous/crystalline silicon heterojunctions

✍ Scribed by Olibet, Sara ;Vallat-Sauvain, Evelyne ;Fesquet, Luc ;Monachon, Christian ;Hessler-Wyser, Aïcha ;Damon-Lacoste, Jérôme ;De Wolf, Stefaan ;Ballif, Christophe

Publisher
John Wiley and Sons
Year
2010
Tongue
English
Weight
852 KB
Volume
207
Category
Article
ISSN
0031-8965

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✦ Synopsis

Abstract

To study recombination at the amorphous/crystalline Si (a‐Si:H/c‐Si) heterointerface, the amphoteric nature of silicon (Si) dangling bonds is taken into account. Modeling interface recombination measured on various test structures provides insight into the microscopic passivation mechanisms, yielding an excellent interface defect density reduction by intrinsic a‐Si:H and tunable field‐effect passivation by doped layers. The potential of this model's applicability to recombination at other Si heterointerfaces is demonstrated. Solar cell properties of a‐Si:H/c‐Si heterojunctions are in good accordance with the microscopic interface properties revealed by modeling, that are, e.g., slight asymmetries in the neutral capture cross‐sections and band offsets. The importance of atomically abrupt interfaces and the difficulties to obtain them on pyramidally textured c‐Si is studied in combination with transmission electron microscopy.

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