Ex-situ doping is used to introduce a constant dose (∼ 1\ rmx\ 1013\ cm-2) of P atoms into Si nanosheets with thickness ranging from 70 to 6 nm. Full activation of P atoms is demonstrated in Si nanosheets with thickness\ h\geq 30 nm. Conversely, progressive deactivation of dopant impurities is observed when decreasing the thickness of the Si nanosheets below 30 nm. Si nanosheets with thickness h < 10 nm exhibit electron mobility values higher than the ones reported for bulk Si at the same doping concentration. Data provide information for the design of ultra-scaled GAAFET devices.

Pereg, M., Pulici, A., Kuschlan, S., Seguini, G., Taglietti, F., Fanciulli, M., et al. (2023). Phosphorus Deactivation and Electron Mobility Enhancement in Ultrathin Silicon Nanosheets. In 2023 Silicon Nanoelectronics Workshop, SNW 2023 (pp.77-78). Institute of Electrical and Electronics Engineers Inc. [10.23919/SNW57900.2023.10183976].

Phosphorus Deactivation and Electron Mobility Enhancement in Ultrathin Silicon Nanosheets

Pulici A.;Taglietti F.;Fanciulli M.;
2023

Abstract

Ex-situ doping is used to introduce a constant dose (∼ 1\ rmx\ 1013\ cm-2) of P atoms into Si nanosheets with thickness ranging from 70 to 6 nm. Full activation of P atoms is demonstrated in Si nanosheets with thickness\ h\geq 30 nm. Conversely, progressive deactivation of dopant impurities is observed when decreasing the thickness of the Si nanosheets below 30 nm. Si nanosheets with thickness h < 10 nm exhibit electron mobility values higher than the ones reported for bulk Si at the same doping concentration. Data provide information for the design of ultra-scaled GAAFET devices.
paper
Nanosheets; Phosphorus; Silicon
English
26th Silicon Nanoelectronics Workshop, SNW 2023 - 11-12 June 2023
2023
2023 Silicon Nanoelectronics Workshop, SNW 2023
9784863488083
2023
77
78
reserved
Pereg, M., Pulici, A., Kuschlan, S., Seguini, G., Taglietti, F., Fanciulli, M., et al. (2023). Phosphorus Deactivation and Electron Mobility Enhancement in Ultrathin Silicon Nanosheets. In 2023 Silicon Nanoelectronics Workshop, SNW 2023 (pp.77-78). Institute of Electrical and Electronics Engineers Inc. [10.23919/SNW57900.2023.10183976].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/536204
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