Luminescence cycling and defect density measurements in porous silicon: Evidence for hydride based model

21 September 1992

journal article
Published by AIP Publishing in Applied Physics Letters

Vol. 61 (12) , 1447-1449
https://doi.org/10.1063/1.107565

Abstract

Changes in dangling bond densities in porous silicon were measured and results indicate a relatively low dangling bond density (roughly 3×1016 bonds/cm3) in as-prepared samples, which increases by a factor of 6–7 upon quenching of the photoluminescence (PL). The electron spin resonance (ESR) data suggest the presence of significant disorder in the as-prepared 1 Ω cm porous silicon samples, which may correlate with an enhanced PL intensity. The results of heat cycling and HF dipping experiments suggest that a continuous decrease in particle size does not result in a continuous PL blue shift, as would be expected in the quantum confinement model. These results will be discussed in terms of a hydride/polysilane luminescence mechanism.

Keywords

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