Photoluminescence from Si nanocrystals exposed to a hydrogen plasma
Yoon-Jin JungKangwon National University 1 Department of Physics, College of Natural Sciences, , Chuncheon, Kangwon-do 200-701, Republic of KoreaJong‐Hwan YoonKangwon National University 1 Department of Physics, College of Natural Sciences, , Chuncheon, Kangwon-do 200-701, Republic of KoreaR. G. EllimanThe Australian National University 2 Department of Electronic Materials Engineering, Research School of Physical Sciences and Engineering, , Canberra, ACT 0200, AustraliaA.R. WilkinsonThe Australian National University 2 Department of Electronic Materials Engineering, Research School of Physical Sciences and Engineering, , Canberra, ACT 0200, Australia
2008en
ABI
Annotatsiya
Si nanocrystals embedded in SiO2 films were exposed to an atomic H plasma at different temperatures. Photoluminescence intensity from the nanocrystals increases with increasing exposure time, followed by saturation that depends on the exposure temperature. The saturation level depends on the final exposure temperature and shows no dependence on the thermal history of exposure. This behavior is shown to be consistent with a model in which the steady-state passivation level is determined by a balance between defect passivation and depassivation by H, with the activation energy for the passivation reaction being larger than that for the depassivation reaction.
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