Heavy Doping Characteristics of Si Films Epitaxially Grown at 450°C by Alternately Supplied PH3 and SiH4

Yosuke Shimamune, Masao Sakuraba, Takashi Matsuura, Junichi Murota

Research output: Chapter in Book/Report/Conference proceedingChapter

Abstract

Atomic-layer doping is one of the important processes in order to fabricate the ultra-small structure devices. There were some reports of atomic-layer doping by molecular beam epitaxy (MBE). However, Chemical Vapor Deposition (CVD) offers many advantages over MBE, such as high throughput, in-situ doping, and selective deposition. Atomic-layer doping of P and B in SiGe epitaxy was achieved using rapid thermal CVD. This chapter presents a study in which the P doping process and the thermal stability of the electrical characteristics of the multi-layer P-doped epitaxial Si films have been investigated. On the P formed layer surface, Si deposition is achieved by 220Pa SiH4, although the P reduction by SiH4 occurs. In the 2-layer P-doped epitaxial Si films, P atoms incorporated into Si spacer decrease with decreasing the Si spacer thickness. It is suggested that P segregates to the surface of Si spacer from P layer formed surface during Si deposition. It is considered that more electrically active P atoms exist in the heavily P-doped Si film formed at 450°C compared with those in the P-doped Si films formed at higher temperature at the same P concentration. These results suggest that the very low-resistive heavily P-doped epitaxial Si films can be achieved at very low-temperature around 450°C.

Original languageEnglish
Title of host publicationRapid Thermal Processing for Future Semiconductor Devices
PublisherElsevier B.V.
Pages145-150
Number of pages6
ISBN (Print)9780444513397
DOIs
Publication statusPublished - 2003 Apr

ASJC Scopus subject areas

  • Chemical Engineering(all)

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    Shimamune, Y., Sakuraba, M., Matsuura, T., & Murota, J. (2003). Heavy Doping Characteristics of Si Films Epitaxially Grown at 450°C by Alternately Supplied PH3 and SiH4. In Rapid Thermal Processing for Future Semiconductor Devices (pp. 145-150). Elsevier B.V.. https://doi.org/10.1016/B978-044451339-7/50021-0