论文信息 - PECVD in-situ growth of silicon quantum dots in silicon nitride from silane and nitrogen

PECVD in-situ growth of silicon quantum dots in silicon nitride from silane and nitrogen

Abstract Silicon nanostructures have interesting possible applications in new generation photovoltaics. The fabrication techniques usually involve a high-temperature post-deposition annealing. Here we report on the spontaneous growth of silicon quantum dots in silicon nitride films by plasma enhanced chemical vapour deposition (PECVD) using silane and nitrogen as reactant gas sources. The growth rate was kept low by working at low discharge power, and a low deposition temperature was selected (300 °C). This approach is particularly interesting because in principle it allows for use of low cost substrates and application of typical device structures adopted in thin film silicon photovoltaics. Photoluminescence and optical properties have been investigated. The evolution of the photoluminescence emission with nitrogen flow rate has been correlated to the change of the dot size. The effect of the strongly absorbing Si nanostructures in the silicon nitride matrix on the absorption properties has been investigated.

[1] J. C. Muller,et al. Silicon nanocrystals as light converter for solar cells , 2004 .

[2] Gavin Conibeer,et al. Silicon nanostructures for third generation photovoltaic solar cells , 2006 .

[3] E. Palik. Handbook of Optical Constants of Solids , 1997 .

[4] Chang-Hee Cho,et al. Quantum confinement effect in crystalline silicon quantum dots in silicon nitride grown using SiH4 and NH3 , 2006 .

[5] Martin A. Green,et al. Silicon quantum dot superlattices: Modeling of energy bands, densities of states, and mobilities for silicon tandem solar cell applications , 2006 .

[6] G. Sung,et al. Growth and Size Control of Amorphous Silicon Quantum Dots Using SiH4/N2 Plasma , 2002 .

[7] Stephen C. Rand,et al. Optical properties of silicon nitride films deposited by hot filament chemical vapor deposition , 1995 .

[8] Pierre Temple-Boyer,et al. Optical and structural properties of SiOx and SiNx materials , 1995 .

[9] T. Seong,et al. Quantum confinement in amorphous silicon quantum dots embedded in silicon nitride. , 2001, Physical review letters.

[10] Smith,et al. Tetrahedron model for the optical dielectric function of hydrogenated amorphous silicon nitride alloys. , 1990, Physical review. B, Condensed matter.

[11] L. D. Negro,et al. Optical gain in silicon nanocrystals , 2000, Nature.