Abstract
We report a combined experimental and theoretical study of the relationship between the surface structure of silicon nanocrystals synthesized in a nonthermal plasma reactor and their photoluminescence (PL) yields. Upon heating to 160 °C, a significant change in the SiH stretch region of the vibrational spectrum is observed indicating a decrease in surface SiH3 groups, which correlates with an increase in the PL yield. Effusion of SiHx and Si2H2x from the material is detected by residual gas analysis upon heating to temperatures below 200 °C, suggesting a weakly bound species. Analysis of electron paramagnetic resonance spectra before and after heating points to a small reduction in the density of dangling bonds upon heating but this reduction does not correlate with the increase in PL yield. Electronic structure calculations indicate that SiH3– groups may hypervalently bond to fully coordinated surface silicon atoms, resulting in a relatively weak (0.70 eV) bond that is consistent with the experimentally ...
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