Masato Oishi scite author profile

We report a process for Silicon (Si) nano-crystal dots fabrication using a cold-wall Ultrahigh-Vacuum Chemical Vapor Deposition (UHV-CVD) system. Si2H6 gas was used as the pre-curser and irradiated upon SiO2 film on Si wafer to form Si nano-crystal dots.In our system, nucleation, growth, and coalescence phases of nano-crystal dots on SiO2 were found to be related with the optical pyro-meter's read-out curve.At first, the optimum gas irradiation time which gives the highest dot density without coalescence was decided for every gas irradiation condition by using an optical pyro-meter. Then, the dependence of optimum gas irradiation time, dot diameter and dot density on gas flow rate and wafer temperature were investigated. A decrease of wafer temperature or an increase of gas flow rate during the nucleation and growth phase results in a decrease of dot diameter and an increase of dot density. The optimum gas irradiation time was prolonged by decreasing wafer temperature or gas flow rate.Finally, a reproducible process of forming non-coalesced, small size, and high-density Si nano-crystal dots of about 5.5nm in diameter with density of 1x1012 dots/cm2 were obtained. Typical process time to get such dot formation characteristics was about 10 minutes, which were long enough for ensuring reproducibility.

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94-GHz fT, 0.4-dB NFmin HBT with Optimized Si-cap and Extrinsic Base using Blanket SiGeC Epitaxy for Consumer Wireless Applications

Kiyota¹,

Yamagata²,

Bairo³

et al. 2004

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Masato Oishi

Enhanced performance in sub-100 nm CMOSFETs using strained epitaxial silicon-germanium

101 GHz f/sub Tmax/ SiGe:C HBT integrated into 0.25 μm CMOS with conventional LOCOS isolation

Fabrication of Silicon Nano-Crystal Dots on SiO₂ by Ultrahigh-Vacuum Chemical Vapor Deposition

94-GHz fT, 0.4-dB NFmin HBT with Optimized Si-cap and Extrinsic Base using Blanket SiGeC Epitaxy for Consumer Wireless Applications

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Masato Oishi

Enhanced performance in sub-100 nm CMOSFETs using strained epitaxial silicon-germanium

101 GHz f/sub Tmax/ SiGe:C HBT integrated into 0.25 μm CMOS with conventional LOCOS isolation

Fabrication of Silicon Nano-Crystal Dots on SiO2 by Ultrahigh-Vacuum Chemical Vapor Deposition

94-GHz fT, 0.4-dB NFmin HBT with Optimized Si-cap and Extrinsic Base using Blanket SiGeC Epitaxy for Consumer Wireless Applications

Contact Info

Product

Resources

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Fabrication of Silicon Nano-Crystal Dots on SiO₂ by Ultrahigh-Vacuum Chemical Vapor Deposition