Here, we investigate p-type and n-type porous silicon (PS) reactivity towards oxygen and animonia in the gas phase. We show that in both the environments, a clear correlation exists between the reaction rate and the confinement energy. In the frame of Marcus theory and starting from basic assumptions, a theoretical model has been developed correlating the charge transfer mechanism to the confinement size. The model well explains the experimental findings, predicting, moreover, the existence of a resonance in the reaction rate, function of the confinement energy.
Nanostructure reactivity: Confinement energy and charge transfer in porous silicon
Lettieri S
2005
Abstract
Here, we investigate p-type and n-type porous silicon (PS) reactivity towards oxygen and animonia in the gas phase. We show that in both the environments, a clear correlation exists between the reaction rate and the confinement energy. In the frame of Marcus theory and starting from basic assumptions, a theoretical model has been developed correlating the charge transfer mechanism to the confinement size. The model well explains the experimental findings, predicting, moreover, the existence of a resonance in the reaction rate, function of the confinement energy.File in questo prodotto:
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