Direct exchange between silicon nanocrystals and tunnel oxide traps under illumination on single electron photodetector - Archive ouverte HAL
Article Dans Une Revue Semiconductors Année : 2016

Direct exchange between silicon nanocrystals and tunnel oxide traps under illumination on single electron photodetector

Résumé

In this paper we present the trapping of photogenerated charge carriers for 300 s resulted by their direct exchange under illumination between a few silicon nanocrystals (ncs-Si) embedded in an oxide tunnel layer (SiOx = 1.5) and the tunnel oxide traps levels for a single electron photodetector (photo-SET or nanopixel). At first place, the presence of a photocurrent limited in the inversion zone under illumination in the I–V curves confirms the creation of a pair electron/hole (e–h) at high energy. This photogenerated charge carriers can be trapped in the oxide. Using the capacitance-voltage under illumination (the photo-CV measurements) we show a hysteresis chargement limited in the inversion area, indicating that the photo-generated charge carriers are stored at traps levels at the interface and within ncs-Si. The direct exchange of the photogenerated charge carriers between the interface traps levels and the ncs-Si contributed on the photomemory effect for 300 s for our nanopixel at room temperature.
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Dates et versions

hal-01701401 , version 1 (05-02-2018)

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S. Chattbouri, M. Troudi, N. Sghaier, A. Kalboussi, Vincent Aimez, et al.. Direct exchange between silicon nanocrystals and tunnel oxide traps under illumination on single electron photodetector. Semiconductors, 2016, 50, pp.1163. ⟨10.1134/S1063782616090062⟩. ⟨hal-01701401⟩
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