Trap states in oxidation layer of nanocrystal Si

doi:10.1088/1674-1056/17/10/037

Abstract

Abstract The photoluminescence (PL) of nanocrystal present in porous silicon shifts from the near infrared to the ultraviolet depending on the size when the surface is passivated with Si-H bonds. After oxidation, the centre wavelength of PL band is pinned in a region of 700--750 nm and its intensity increases obviously. Calculation shows that trap electronic states appear in the band gap of a smaller nanocrystal when Si = O bonds or Si--O--Si bonds are formed. The changes in PL intensity and wavelength can be explained by both quantum confinement and trap states in an oxidation layer of nanocrystal. In the theoretical model, the most important factor in the enhancement and the pinning effects of PL emission is the relative position between the level of the trap states and the level of the photoexcitation in the silicon nanocrystal.

Keywords: photoluminescence porous silicon trap states

Received: 23 February 2008
Revised: 09 April 2008
Accepted manuscript online:

PACS:	78.55.Ap	(Elemental semiconductors)
	78.67.Bf	(Nanocrystals, nanoparticles, and nanoclusters)
	78.55.Mb	(Porous materials)
	81.65.Mq	(Oxidation)
	73.22.-f	(Electronic structure of nanoscale materials and related systems)

Fund: Project supported by the National Natural Science Foundation of China (Grant No 10764002).

Cite this article:

Huang Wei-Qi(黄伟其), Wang Hai-Xu(王海旭), Jin Feng(金峰), and Qin Cao-Jian(秦朝建) Trap states in oxidation layer of nanocrystal Si 2008 Chin. Phys. B 17 3753

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