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Regensburg 2004 – wissenschaftliches Programm

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DS: Dünne Schichten

DS 20: Dünne Schichten für die Photovoltaik II

DS 20.3: Vortrag

Donnerstag, 11. März 2004, 15:00–15:15, HS 32

Ultrathin hydrogenated amorphous silicon layers on crystalline silicon: a-Si:H gap state density distribution and a-Si/c-Si interface properties — •Lars Korte, Klaus Kliefoth, Abdelazize Laades, and Manfred Schmidt — Hahn-Meitner-Institut Berlin, Abt. Silizium-Photovoltaik, Kekuléstr. 5, 12489 Berlin

The application of hydrogenated amorphous silicon as emitter layer in high-efficiency heterostructure solar cells requires an optimization of the a-Si:H bulk and a-Si/c-Si interface electrical properties. Information on these properties can be obtained by photoelectron spectroscopy (PES) and the surface photovoltage technique (SPV), respectively. By PES, the Fermi level Ef as well as the distribution of states Nocc(E) in the valence band and the energy gap up to Ef can be measured [1]. The information depth at the used low excitation energies (hν=4−7 eV) increases to 5-10 nm, equal to the optimum emitter thickness. Thus, Nocc(E) is an average of the a-Si:H density of states (DOS). For samples of n-doped a-Si:H deposited on c-Si by PECVD, EfEv varies from 1.15 eV for undoped layers to a saturation value of 1.47 eV at a doping of [P]=104 ppm in the gas phase. Also, an increase of the Urbach energy from 51 meV to 101 meV and of the DOS at midgap is observed, indicating an increase of disorder and dangling bond concentration. From SPV, the band bending at the a-Si:H/c-Si interface can be determined. The interface gap states distribution Dit(E) is measured by bias voltage-dependent SPV and proves the excellent passivation of the c-Si surface by the a-Si:H network, with a Dit as low as that of H-terminated c-Si.

[1] M. Schmidt et al., MRS Proc. 762, A19.11.1 (2003).

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