Ken Okazaki scite author profile

Silicon nanocrystals have recently attracted significant attention for applications in electronics, optoelectronics, and biological imaging due to their size-dependent optical and electronic properties. Here a method for synthesizing luminescent silicon nanocrystals from silicon tetrachloride with a nonthermal plasma is described. Silicon nanocrystals with mean diameters of 3-15 nm are synthesized and have a narrow size distribution with the standard deviation being less than 20% of the mean size. Control over crystallinity is achieved for plasma pressures of 1-12 Torr and hydrogen gas concentrations of 5-70% through adjustment of the plasma power. The size of nanocrystals, and resulting optical properties, is mainly dependent on the gas residence time in the plasma region. Additionally the surface of the nanocrystals is covered by both hydrogen and chlorine. Oxidation of the nanocrystals, which is found to follow the Cabrera-Mott mechanism under ambient conditions, is significantly faster than hydrogen terminated silicon due to partial termination of the nanocrystal surface by chlorine.

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NOx reduction mechanism in coal combustion with recycled CO2

Okazaki

Ando

1997

Energy

198

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Ken Okazaki

Non-thermal plasma catalysis of methane: Principles, energy efficiency, and applications

Dissociation of vibrationally excited methane on Ni catalyst

Sulfation behavior of limestone under high CO2 concentration in O2/CO2 coal combustion

Synthesis and oxidation of luminescent silicon nanocrystals from silicon tetrachloride by very high frequency nonthermal plasma

NOx reduction mechanism in coal combustion with recycled CO2

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