Reducing the Temperature of Conventional Silicon Epitaxy for Selective Poly‐Epi Growth

Epitaxial silicon films have been deposited by a new technique which combines an ultrahigh vacuum (UHV) environment with rapid thermal chemical vapor deposition (RTCVD). The technique is referred to as UHV/RTCVD. Using Si2H6, B2H6, and H2 as process gases, low temperature (T≤800 °C) and high throughput (growth rate ≳0.25 μm/min) processing have been achieved in the 90 mTorr (1 Pa=133.32 Torr) total pressure regime. Epitaxial growth was achieved on hydrogen passivated silicon surfaces without using a high temperature in situ clean. Effect of the growth temperature on the generation lifetime of the films grown on 4–11 Ω cm (100) silicon substrates was studied at three different temperatures of 700, 750, and 800 °C using the Zerbst technique. The epitaxial films were in situ doped with boron to a doping level of 1–2×1016 cm−3. Generation lifetimes, as high as 400 μs, were measured with no strong dependence on the growth temperature. Chemical purity of the films was studied using secondary ion mass spectroscopy, which indicated low oxygen and carbon levels on the order of 1017 cm −3.

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Reducing the Temperature of Conventional Silicon Epitaxy for Selective Poly‐Epi Growth

Cited by 9 publications

References 6 publications

ChemInform Abstract: Reducing the Temperature of Conventional Silicon Epitaxy for Selective Poly‐Epi Growth

ChemInform Abstract: Reducing the Temperature of Conventional Silicon Epitaxy for Selective Poly‐Epi Growth

The selective epitaxial growth of silicon

Low temperature silicon epitaxy in an ultrahigh vacuum rapid thermal chemical vapor deposition reactor using disilane

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